BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= 040710
(202 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|3UJO|A Chain A, Galactose-Specific Seed Lectin From Dolichos Lablab In
Complex With Adenine And Galactose
pdb|3UJO|B Chain B, Galactose-Specific Seed Lectin From Dolichos Lablab In
Complex With Adenine And Galactose
pdb|3UJO|C Chain C, Galactose-Specific Seed Lectin From Dolichos Lablab In
Complex With Adenine And Galactose
pdb|3UJO|D Chain D, Galactose-Specific Seed Lectin From Dolichos Lablab In
Complex With Adenine And Galactose
pdb|3UJQ|A Chain A, Galactose-Specific Lectin From Dolichos Lablab In Complex
With Galactose
pdb|3UJQ|B Chain B, Galactose-Specific Lectin From Dolichos Lablab In Complex
With Galactose
pdb|3UJQ|C Chain C, Galactose-Specific Lectin From Dolichos Lablab In Complex
With Galactose
pdb|3UJQ|D Chain D, Galactose-Specific Lectin From Dolichos Lablab In Complex
With Galactose
pdb|3UK9|A Chain A, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|B Chain B, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|C Chain C, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|D Chain D, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|E Chain E, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|F Chain F, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|G Chain G, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UK9|H Chain H, Galactose-Specific Lectin From Dolichos Lablab
pdb|3UL2|A Chain A, Galactose-Specific Lectin From Dolichos Lablab In P6522
Space Group
pdb|3UL2|B Chain B, Galactose-Specific Lectin From Dolichos Lablab In P6522
Space Group
pdb|3UL2|C Chain C, Galactose-Specific Lectin From Dolichos Lablab In P6522
Space Group
pdb|3UL2|D Chain D, Galactose-Specific Lectin From Dolichos Lablab In P6522
Space Group
Length = 281
Score = 64.3 bits (155), Expect = 4e-11, Method: Compositional matrix adjust.
Identities = 38/121 (31%), Positives = 65/121 (53%), Gaps = 10/121 (8%)
Query: 80 HQLAVELDTFKND-FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGS 138
+AVE DTF N +D H+ ID SI +S+ +T D +G+N V+I Y+ S
Sbjct: 141 QTVAVEFDTFYNGGWDPTERHIGIDVNSI------KSIKTTSWDFANGENAEVLITYDSS 194
Query: 139 QNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESHQLLEWSLTS 195
NL+ ++ ++ + ++L+ ++P V VGF+A TG E++++L WS S
Sbjct: 195 TNLLVASLVHPSQKTSFIVSERVDLTSVLPEWVSVGFSATTGLSKGYVETNEVLSWSFAS 254
Query: 196 Q 196
+
Sbjct: 255 K 255
>pdb|2SBA|A Chain A, Soybean Agglutinin Complexed With 2,6-Pentasaccharide
pdb|1G9F|A Chain A, Crystal Structure Of The Soybean Agglutinin In A Complex
With A Biantennary Blood Group Antigen Analog
pdb|1SBD|A Chain A, Soybean Agglutinin Complexed With 2,4-pentasaccharide
pdb|1SBE|A Chain A, Soybean Agglutinin From Glycine Max
pdb|1SBF|A Chain A, Soybean Agglutinin
Length = 253
Score = 63.2 bits (152), Expect = 9e-11, Method: Compositional matrix adjust.
Identities = 39/117 (33%), Positives = 61/117 (52%), Gaps = 8/117 (6%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+AVE DTF+N +D H+ I+ SI S+ +T DL + K V+I Y+ S +L
Sbjct: 121 VAVEFDTFRNSWDPPNPHIGINVNSI------RSIKTTSWDLANNKVAKVLITYDASTSL 174
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG--ALAESHQLLEWSLTSQ 196
+ ++ N++ ++L +P V +GF+AATG ESH +L WS S
Sbjct: 175 LVASLVYPSQRTSNILSDVVDLKTSLPEWVRIGFSAATGLDIPGESHDVLSWSFASN 231
>pdb|1LUL|A Chain A, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1LUL|B Chain B, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1LUL|C Chain C, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1LUL|D Chain D, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1LUL|E Chain E, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1LUL|F Chain F, Db58, A Legume Lectin From Dolichos Biflorus
pdb|1G7Y|A Chain A, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
pdb|1G7Y|B Chain B, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
pdb|1G7Y|C Chain C, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
pdb|1G7Y|D Chain D, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
pdb|1G7Y|E Chain E, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
pdb|1G7Y|F Chain F, The Crystal Structure Of The 58kd Vegetative Lectin From
The Tropical Legume Dolichos Biflorus
Length = 253
Score = 62.0 bits (149), Expect = 2e-10, Method: Compositional matrix adjust.
Identities = 39/134 (29%), Positives = 71/134 (52%), Gaps = 17/134 (12%)
Query: 73 EIVGTDMHQLAVELDTFKN-DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
++ +AVE DTF N D+D H+ ID SI +S+ + L +G+N +
Sbjct: 111 DVYDNSAQTVAVEFDTFSNTDWDPTSRHIGIDVNSI------KSIRTASWGLANGQNAEI 164
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKN---VIKQPINLSDIVPSSVYVGFTAATG---ALAES 185
+I YN + +L+ ++ HP + ++ + +++++ +P V +GF+A TG E+
Sbjct: 165 LITYNAATSLLVASLV---HPSRRTSYIVSERVDITNELPEYVSIGFSATTGLSEGYTET 221
Query: 186 HQLLEWSLTSQPLP 199
H +L WS S+ LP
Sbjct: 222 HDVLSWSFASK-LP 234
>pdb|1G8W|A Chain A, Improved Structure Of Phytohemagglutinin-L From The Kidney
Bean
pdb|1G8W|B Chain B, Improved Structure Of Phytohemagglutinin-L From The Kidney
Bean
pdb|1G8W|C Chain C, Improved Structure Of Phytohemagglutinin-L From The Kidney
Bean
pdb|1G8W|D Chain D, Improved Structure Of Phytohemagglutinin-L From The Kidney
Bean
Length = 233
Score = 61.6 bits (148), Expect = 3e-10, Method: Compositional matrix adjust.
Identities = 39/130 (30%), Positives = 66/130 (50%), Gaps = 10/130 (7%)
Query: 71 MLEIVGTDMHQLAVELDTFKN-DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNI 129
+ + ++ H +AVE DT N D+D H+ ID SI S+ +T D +G+N
Sbjct: 108 LFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSI------RSIKTTRWDFVNGENA 161
Query: 130 TVIIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESH 186
V+I Y+ S NL+ ++ ++ ++L ++P V VGF+A TG E++
Sbjct: 162 EVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETN 221
Query: 187 QLLEWSLTSQ 196
+L WS S+
Sbjct: 222 DVLSWSFASK 231
>pdb|1FAT|A Chain A, Phytohemagglutinin-L
pdb|1FAT|B Chain B, Phytohemagglutinin-L
pdb|1FAT|C Chain C, Phytohemagglutinin-L
pdb|1FAT|D Chain D, Phytohemagglutinin-L
Length = 252
Score = 61.2 bits (147), Expect = 3e-10, Method: Compositional matrix adjust.
Identities = 39/130 (30%), Positives = 66/130 (50%), Gaps = 10/130 (7%)
Query: 71 MLEIVGTDMHQLAVELDTFKN-DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNI 129
+ + ++ H +AVE DT N D+D H+ ID SI S+ +T D +G+N
Sbjct: 108 LFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSI------RSIKTTRWDFVNGENA 161
Query: 130 TVIIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESH 186
V+I Y+ S NL+ ++ ++ ++L ++P V VGF+A TG E++
Sbjct: 162 EVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETN 221
Query: 187 QLLEWSLTSQ 196
+L WS S+
Sbjct: 222 DVLSWSFASK 231
>pdb|2BQP|A Chain A, The Structure Of The Pea Lectin-D-Glucopyranose Complex
pdb|2BQP|B Chain B, The Structure Of The Pea Lectin-D-Glucopyranose Complex
Length = 234
Score = 60.1 bits (144), Expect = 9e-10, Method: Compositional matrix adjust.
Identities = 40/127 (31%), Positives = 67/127 (52%), Gaps = 22/127 (17%)
Query: 82 LAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGS 138
+AVE DTF N D H+ ID SI +S+N+ L++G+ V+I +N +
Sbjct: 116 VAVEFDTFYNAAWDPSNRDRHIGIDVNSI------KSVNTKSWKLQNGEEANVVIAFNAA 169
Query: 139 QNLIYVNVRDTDHPPKNVIKQPI---------NLSDIVPSSVYVGFTAATGALAESHQLL 189
N++ V++ P N +++ + +L D+VP V +GF+A TGA +H++L
Sbjct: 170 TNVLTVSLT----YPNNSLEEEVTSYTLSDVVSLKDVVPEWVRIGFSATTGAEYAAHEVL 225
Query: 190 EWSLTSQ 196
WS S+
Sbjct: 226 SWSFHSE 232
>pdb|1N47|A Chain A, Isolectin B4 From Vicia Villosa In Complex With The Tn
Antigen
pdb|1N47|B Chain B, Isolectin B4 From Vicia Villosa In Complex With The Tn
Antigen
pdb|1N47|C Chain C, Isolectin B4 From Vicia Villosa In Complex With The Tn
Antigen
pdb|1N47|D Chain D, Isolectin B4 From Vicia Villosa In Complex With The Tn
Antigen
Length = 233
Score = 59.3 bits (142), Expect = 1e-09, Method: Compositional matrix adjust.
Identities = 35/115 (30%), Positives = 57/115 (49%), Gaps = 9/115 (7%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+AVE DT+ N +D + H+ IDT I ES +T D+ G+ ++I Y S
Sbjct: 120 VAVEFDTYSNAWDPNYTHIGIDTNGI------ESKKTTPFDMVYGEKANIVITYQASTKA 173
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESHQLLEWSL 193
+ ++ + ++L DI+P V VGF+A TG + E+H ++ WS
Sbjct: 174 LAASLVFPVSQTSYAVSARVDLRDILPEYVRVGFSATTGLNAGVVETHDIVSWSF 228
>pdb|1BJQ|A Chain A, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|B Chain B, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|C Chain C, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|D Chain D, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|E Chain E, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|F Chain F, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|G Chain G, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1BJQ|H Chain H, The Dolichos Biflorus Seed Lectin In Complex With Adenine
pdb|1LU2|A Chain A, Dolichos Biflorus Seed Lectin In Complex With The Blood
Group A Trisaccharide
pdb|1LU2|B Chain B, Dolichos Biflorus Seed Lectin In Complex With The Blood
Group A Trisaccharide
pdb|1LU1|A Chain A, The Structure Of The Dolichos Biflorus Seed Lectin In
Complex With The Forssman Disaccharide
Length = 253
Score = 57.8 bits (138), Expect = 4e-09, Method: Compositional matrix adjust.
Identities = 35/128 (27%), Positives = 65/128 (50%), Gaps = 10/128 (7%)
Query: 73 EIVGTDMHQLAVELDTFKND-FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
++ +AVE DT N +D H+ ID SI +S+ + DL +G+N +
Sbjct: 111 DVYNNSAQTVAVEFDTLSNSGWDPSMKHIGIDVNSI------KSIATVSWDLANGENAEI 164
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESHQL 188
+I YN + +L+ ++ ++ + +++++ +P V VGF+A TG E+H +
Sbjct: 165 LITYNAATSLLVASLVHPSRRTSYILSERVDITNELPEYVSVGFSATTGLSEGYIETHDV 224
Query: 189 LEWSLTSQ 196
L WS S+
Sbjct: 225 LSWSFASK 232
>pdb|3IPV|A Chain A, Crystal Structure Of Spatholobus Parviflorus Seed Lectin
pdb|3IPV|C Chain C, Crystal Structure Of Spatholobus Parviflorus Seed Lectin
Length = 251
Score = 57.4 bits (137), Expect = 6e-09, Method: Compositional matrix adjust.
Identities = 38/128 (29%), Positives = 63/128 (49%), Gaps = 11/128 (8%)
Query: 74 IVGTDMHQLAVELDTFKNDFDVDG--NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
+ G+ +AVE DT++N D H+ D SIS S+ + L +G+ V
Sbjct: 115 VSGSTYQTVAVEFDTYENTVFTDPPYTHIGFDVNSIS------SIKTVKWSLANGEAAKV 168
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA---ESHQL 188
+I YN + L+ ++ ++ ++LS ++P V VGF+AATGA E+H +
Sbjct: 169 LITYNSAVKLLVASLVYPSSKTSFILADIVDLSSVLPEWVRVGFSAATGASGGKIETHDV 228
Query: 189 LEWSLTSQ 196
WS S+
Sbjct: 229 FSWSFASK 236
>pdb|3ZVX|A Chain A, Structure Of The Lectin From Platypodium Elegans In
Complex With A Trimannoside
pdb|3ZVX|B Chain B, Structure Of The Lectin From Platypodium Elegans In
Complex With A Trimannoside
pdb|3ZYR|A Chain A, Structure Of The Lectin From Platypodium Elegans In
Complex With Heptasaccharide
pdb|3ZYR|B Chain B, Structure Of The Lectin From Platypodium Elegans In
Complex With Heptasaccharide
Length = 261
Score = 57.4 bits (137), Expect = 6e-09, Method: Compositional matrix adjust.
Identities = 40/118 (33%), Positives = 58/118 (49%), Gaps = 11/118 (9%)
Query: 82 LAVELDTF----KNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
LAVE DTF N +D + H+ ID SI V + + GK + V++ YN
Sbjct: 134 LAVEFDTFFAQNSNTWDPNYQHIGIDVNSIRSSKVVR------WERREGKTLNVLVTYNP 187
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTS 195
S I V V + + ++L+ I+P V VGF+AA+G ++H L WS TS
Sbjct: 188 STRTIDV-VATYPDGQRYQLSHVVDLTTILPEWVRVGFSAASGEQFQTHNLESWSFTS 244
>pdb|3USU|A Chain A, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|C Chain C, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|E Chain E, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|G Chain G, Crystal Structure Of Butea Monosperma Seed Lectin
Length = 256
Score = 56.2 bits (134), Expect = 1e-08, Method: Compositional matrix adjust.
Identities = 36/128 (28%), Positives = 63/128 (49%), Gaps = 11/128 (8%)
Query: 74 IVGTDMHQLAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
+ + +AVE DT++N D H+ ID SI +S+ + DL +G+ V
Sbjct: 116 VFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSI------KSIKTVKWDLANGEAAKV 169
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA---ESHQL 188
+I Y+ S L+ + ++ ++L ++P V +GF+AATGA + E+H +
Sbjct: 170 LITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDV 229
Query: 189 LEWSLTSQ 196
WS S+
Sbjct: 230 FSWSFASK 237
>pdb|3IPV|B Chain B, Crystal Structure Of Spatholobus Parviflorus Seed Lectin
pdb|3IPV|D Chain D, Crystal Structure Of Spatholobus Parviflorus Seed Lectin
Length = 239
Score = 56.2 bits (134), Expect = 1e-08, Method: Compositional matrix adjust.
Identities = 40/128 (31%), Positives = 64/128 (50%), Gaps = 12/128 (9%)
Query: 75 VGTDMHQ-LAVELDTFKNDFDVDG--NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
VG +Q +AVE DT++N D H+ D SIS S+ + L +G+ V
Sbjct: 115 VGDTTYQTVAVEFDTYENTVFTDPPYTHIGFDVNSIS------SIKTVKWSLANGEAAKV 168
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQL 188
+I YN + L+ ++ ++ ++LS ++P V VGF+AATGA E+H +
Sbjct: 169 LITYNSAVKLLVASLVYPSSKTSFILADIVDLSSVLPEWVRVGFSAATGASKGYIETHDV 228
Query: 189 LEWSLTSQ 196
WS S+
Sbjct: 229 FSWSFASK 236
>pdb|3USU|B Chain B, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|D Chain D, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|F Chain F, Crystal Structure Of Butea Monosperma Seed Lectin
pdb|3USU|H Chain H, Crystal Structure Of Butea Monosperma Seed Lectin
Length = 242
Score = 56.2 bits (134), Expect = 1e-08, Method: Compositional matrix adjust.
Identities = 36/128 (28%), Positives = 63/128 (49%), Gaps = 11/128 (8%)
Query: 74 IVGTDMHQLAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITV 131
+ + +AVE DT++N D H+ ID SI +S+ + DL +G+ V
Sbjct: 116 VFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSI------KSIKTVKWDLANGEAAKV 169
Query: 132 IIQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA---ESHQL 188
+I Y+ S L+ + ++ ++L ++P V +GF+AATGA + E+H +
Sbjct: 170 LITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDV 229
Query: 189 LEWSLTSQ 196
WS S+
Sbjct: 230 FSWSFASK 237
>pdb|1WBF|A Chain A, Winged Bean Lectin, Saccharide Free Form
pdb|1WBF|B Chain B, Winged Bean Lectin, Saccharide Free Form
pdb|2D3S|A Chain A, Crystal Structure Of Basic Winged Bean Lectin With
Tn-Antigen
pdb|2D3S|B Chain B, Crystal Structure Of Basic Winged Bean Lectin With
Tn-Antigen
pdb|2D3S|C Chain C, Crystal Structure Of Basic Winged Bean Lectin With
Tn-Antigen
pdb|2D3S|D Chain D, Crystal Structure Of Basic Winged Bean Lectin With
Tn-Antigen
Length = 242
Score = 53.9 bits (128), Expect = 6e-08, Method: Compositional matrix adjust.
Identities = 38/121 (31%), Positives = 60/121 (49%), Gaps = 13/121 (10%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+AVE DTF+N +D H+ ID S V S + L +G V+I+Y+ S +
Sbjct: 120 VAVEFDTFRNTWDPQIPHIGIDVNS------VISTKTVPFTLDNGGIANVVIKYDASTKI 173
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG-------ALAESHQLLEWSLT 194
++V + I ++L ++P SV VGF+AATG E+H +L WS +
Sbjct: 174 LHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFS 233
Query: 195 S 195
+
Sbjct: 234 A 234
>pdb|2E7Q|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Trisaccharide
pdb|2E7Q|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Trisaccharide
pdb|2E7Q|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Trisaccharide
pdb|2E7Q|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Trisaccharide
pdb|2E7T|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Trisaccharide
pdb|2E7T|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Trisaccharide
pdb|2E7T|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Trisaccharide
pdb|2E7T|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Trisaccharide
Length = 237
Score = 53.9 bits (128), Expect = 6e-08, Method: Compositional matrix adjust.
Identities = 38/121 (31%), Positives = 60/121 (49%), Gaps = 13/121 (10%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+AVE DTF+N +D H+ ID S V S + L +G V+I+Y+ S +
Sbjct: 119 VAVEFDTFRNTWDPQIPHIGIDVNS------VISTKTVPFTLDNGGIANVVIKYDASTKI 172
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG-------ALAESHQLLEWSLT 194
++V + I ++L ++P SV VGF+AATG E+H +L WS +
Sbjct: 173 LHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFS 232
Query: 195 S 195
+
Sbjct: 233 A 233
>pdb|1WBL|A Chain A, Winged Bean Lectin Complexed With Methyl-Alpha-D-Galactose
pdb|1WBL|B Chain B, Winged Bean Lectin Complexed With Methyl-Alpha-D-Galactose
pdb|1WBL|C Chain C, Winged Bean Lectin Complexed With Methyl-Alpha-D-Galactose
pdb|1WBL|D Chain D, Winged Bean Lectin Complexed With Methyl-Alpha-D-Galactose
pdb|2DTW|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With 2me-O-D- Galactose
pdb|2DTW|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With 2me-O-D- Galactose
pdb|2DTW|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With 2me-O-D- Galactose
pdb|2DTW|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With 2me-O-D- Galactose
pdb|2DTY|A Chain A, Crystal Structure Of Basic Winged Bean Lectin Complexed
With N-Acetyl- D-Galactosamine
pdb|2DTY|B Chain B, Crystal Structure Of Basic Winged Bean Lectin Complexed
With N-Acetyl- D-Galactosamine
pdb|2DTY|C Chain C, Crystal Structure Of Basic Winged Bean Lectin Complexed
With N-Acetyl- D-Galactosamine
pdb|2DTY|D Chain D, Crystal Structure Of Basic Winged Bean Lectin Complexed
With N-Acetyl- D-Galactosamine
pdb|2DU0|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Alpha-D- Galactose
pdb|2DU0|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Alpha-D- Galactose
pdb|2DU0|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Alpha-D- Galactose
pdb|2DU0|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Alpha-D- Galactose
pdb|2DU1|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Methyl- Alpha-N-Acetyl-D Galactosamine
pdb|2DU1|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Methyl- Alpha-N-Acetyl-D Galactosamine
pdb|2DU1|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Methyl- Alpha-N-Acetyl-D Galactosamine
pdb|2DU1|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Methyl- Alpha-N-Acetyl-D Galactosamine
pdb|2E51|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Disaccharide
pdb|2E51|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Disaccharide
pdb|2E51|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Disaccharide
pdb|2E51|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With A Blood Group Disaccharide
pdb|2E53|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Disaccharide
pdb|2E53|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Disaccharide
pdb|2E53|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Disaccharide
pdb|2E53|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With B Blood Group Disaccharide
pdb|2ZMK|A Chain A, Crystl Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha-1,4-gal-beta-ethylene
pdb|2ZMK|B Chain B, Crystl Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha-1,4-gal-beta-ethylene
pdb|2ZMK|C Chain C, Crystl Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha-1,4-gal-beta-ethylene
pdb|2ZMK|D Chain D, Crystl Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha-1,4-gal-beta-ethylene
pdb|2ZML|A Chain A, Crystal Stucture Of Basic Winged Bean Lectin In Complex
With Gal-Alpha 1,4 Gal
pdb|2ZML|B Chain B, Crystal Stucture Of Basic Winged Bean Lectin In Complex
With Gal-Alpha 1,4 Gal
pdb|2ZML|C Chain C, Crystal Stucture Of Basic Winged Bean Lectin In Complex
With Gal-Alpha 1,4 Gal
pdb|2ZML|D Chain D, Crystal Stucture Of Basic Winged Bean Lectin In Complex
With Gal-Alpha 1,4 Gal
pdb|2ZMN|A Chain A, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha- 1,6 Glc
pdb|2ZMN|B Chain B, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha- 1,6 Glc
pdb|2ZMN|C Chain C, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha- 1,6 Glc
pdb|2ZMN|D Chain D, Crystal Structure Of Basic Winged Bean Lectin In Complex
With Gal- Alpha- 1,6 Glc
Length = 241
Score = 53.5 bits (127), Expect = 7e-08, Method: Compositional matrix adjust.
Identities = 38/121 (31%), Positives = 60/121 (49%), Gaps = 13/121 (10%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+AVE DTF+N +D H+ ID S V S + L +G V+I+Y+ S +
Sbjct: 119 VAVEFDTFRNTWDPQIPHIGIDVNS------VISTKTVPFTLDNGGIANVVIKYDASTKI 172
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG-------ALAESHQLLEWSLT 194
++V + I ++L ++P SV VGF+AATG E+H +L WS +
Sbjct: 173 LHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFS 232
Query: 195 S 195
+
Sbjct: 233 A 233
>pdb|1QNW|A Chain A, Lectin Ii From Ulex Europaeus
pdb|1QNW|B Chain B, Lectin Ii From Ulex Europaeus
pdb|1QNW|C Chain C, Lectin Ii From Ulex Europaeus
pdb|1QNW|D Chain D, Lectin Ii From Ulex Europaeus
pdb|1QOO|A Chain A, Lectin Uea-Ii Complexed With Nag
pdb|1QOO|B Chain B, Lectin Uea-Ii Complexed With Nag
pdb|1QOO|C Chain C, Lectin Uea-Ii Complexed With Nag
pdb|1QOO|D Chain D, Lectin Uea-Ii Complexed With Nag
pdb|1QOT|A Chain A, Lectin Uea-Ii Complexed With Fucosyllactose And
Fucosylgalactose
pdb|1QOT|B Chain B, Lectin Uea-Ii Complexed With Fucosyllactose And
Fucosylgalactose
pdb|1QOT|C Chain C, Lectin Uea-Ii Complexed With Fucosyllactose And
Fucosylgalactose
pdb|1QOT|D Chain D, Lectin Uea-Ii Complexed With Fucosyllactose And
Fucosylgalactose
pdb|1QOS|A Chain A, Lectin Uea-Ii Complexed With Chitobiose
pdb|1QOS|B Chain B, Lectin Uea-Ii Complexed With Chitobiose
pdb|1DZQ|A Chain A, Lectin Uea-Ii Complexed With Galactose
pdb|1DZQ|B Chain B, Lectin Uea-Ii Complexed With Galactose
pdb|1DZQ|C Chain C, Lectin Uea-Ii Complexed With Galactose
pdb|1DZQ|D Chain D, Lectin Uea-Ii Complexed With Galactose
Length = 242
Score = 52.8 bits (125), Expect = 1e-07, Method: Compositional matrix adjust.
Identities = 37/121 (30%), Positives = 57/121 (47%), Gaps = 12/121 (9%)
Query: 82 LAVELDTF----KNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
+AVE DT+ N +D D H+ ID SI +S+ + D ++G+ V+I Y
Sbjct: 123 IAVEFDTYFGKAYNPWDPDFKHIGIDVNSI------KSIKTVKWDWRNGEVADVVITYRA 176
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA--ESHQLLEWSLTS 195
+ V + N+I ++L I+P V VGF+ G A E+H +L W TS
Sbjct: 177 PTKSLTVCLSYPSDGTSNIITASVDLKAILPEWVSVGFSGGVGNAAEFETHDVLSWYFTS 236
Query: 196 Q 196
Sbjct: 237 N 237
>pdb|2FMD|A Chain A, Structural Basis Of Carbohydrate Recognition By Bowringia
Milbraedii Seed Agglutinin
Length = 240
Score = 52.4 bits (124), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 38/123 (30%), Positives = 59/123 (47%), Gaps = 9/123 (7%)
Query: 75 VGTDMHQLAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVI 132
G+D ++VE DT+ N D N H+ ID SI A + D ++GK T
Sbjct: 117 AGSDNGVVSVEFDTYPNTDIGDPNYRHIGIDVNSIRSKAASK------WDWQNGKTATAH 170
Query: 133 IQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWS 192
I YN + + V + P V+ + L+++ P V VGF+A TG +++ +L WS
Sbjct: 171 ISYNSASKRLSVVSSYPNSSPV-VVSFDVELNNVXPXWVRVGFSATTGQYTQTNNILAWS 229
Query: 193 LTS 195
S
Sbjct: 230 FRS 232
>pdb|1N3O|A Chain A, Pterocarcpus Angolensis Lectin In Complex With
Alpha-Methyl Glucose
pdb|1N3O|B Chain B, Pterocarcpus Angolensis Lectin In Complex With
Alpha-Methyl Glucose
pdb|1N3P|A Chain A, Pterocarpus Angolensis Lectin In Complex With Sucrose
pdb|1N3P|B Chain B, Pterocarpus Angolensis Lectin In Complex With Sucrose
pdb|1N3Q|A Chain A, Pterocarpus Angolensis Lectin Complexed With Turanose
pdb|1N3Q|B Chain B, Pterocarpus Angolensis Lectin Complexed With Turanose
pdb|1S1A|A Chain A, Pterocarpus Angolensis Seed Lectin (Pal) With One Binding
Site Free And One Binding Site Containing The
Disaccharide Man(A1-3)manme
pdb|1S1A|B Chain B, Pterocarpus Angolensis Seed Lectin (Pal) With One Binding
Site Free And One Binding Site Containing The
Disaccharide Man(A1-3)manme
pdb|2AR6|A Chain A, Pterocarpus Angolensis Lectin (pal) In Complex With The
Pentasaccharide M592
pdb|2AR6|B Chain B, Pterocarpus Angolensis Lectin (pal) In Complex With The
Pentasaccharide M592
pdb|2ARB|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Glcnac(Beta1- 2)man Disaccharide
pdb|2ARB|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Glcnac(Beta1- 2)man Disaccharide
pdb|2ARE|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With
D-Mannose (Anomeric Mixture)
pdb|2ARE|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With
D-Mannose (Anomeric Mixture)
pdb|2ARX|A Chain A, Pterocarpus Angolensis Seed Lectin In Complex With The
Decasaccharide Na2f
pdb|2ARX|B Chain B, Pterocarpus Angolensis Seed Lectin In Complex With The
Decasaccharide Na2f
Length = 252
Score = 52.0 bits (123), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 35/118 (29%), Positives = 61/118 (51%), Gaps = 11/118 (9%)
Query: 82 LAVELDTF----KNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
+AVE DTF N +D + H+ ID SI S+ + D + G+++ V++ +N
Sbjct: 125 IAVEFDTFYAQDSNTWDPNYPHIGIDVNSI------RSVKTVKWDRRDGQSLNVLVTFNP 178
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTS 195
S + V +D + + +++ ++P V VGF+AA+G ++H L WS TS
Sbjct: 179 STRNLDVVATYSDGT-RYEVSYEVDVRSVLPEWVRVGFSAASGEQYQTHTLESWSFTS 235
>pdb|1Q8O|A Chain A, Pterocartpus Angolensis Lectin Pal In Complex With The
Dimmanoside Man(Alpha1-2)man
pdb|1Q8O|B Chain B, Pterocartpus Angolensis Lectin Pal In Complex With The
Dimmanoside Man(Alpha1-2)man
pdb|1Q8P|A Chain A, Pterocarpus Angolensis Lectin Pal In Complex With The
Dimannoside Man(Alpha1-3)man
pdb|1Q8P|B Chain B, Pterocarpus Angolensis Lectin Pal In Complex With The
Dimannoside Man(Alpha1-3)man
pdb|1Q8Q|A Chain A, Pterocarpus Angolensis Lectin (pal) In Complex With The
Dimannoside Man(alpha1-4)man
pdb|1Q8Q|B Chain B, Pterocarpus Angolensis Lectin (pal) In Complex With The
Dimannoside Man(alpha1-4)man
pdb|1Q8S|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Dimannoside Man(Alpha1-6)man
pdb|1Q8S|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Dimannoside Man(Alpha1-6)man
pdb|1Q8V|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Trimannoside [man(Alpha1-3)]man(Alpha1-6)man
pdb|1Q8V|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With The
Trimannoside [man(Alpha1-3)]man(Alpha1-6)man
pdb|1UKG|A Chain A, Pterocarps Angolensis Lectin Pal In Complex With Methyl-
Alpha-Mannose
pdb|1UKG|B Chain B, Pterocarps Angolensis Lectin Pal In Complex With Methyl-
Alpha-Mannose
pdb|2GME|A Chain A, Metal-Free (Apo) P. Angolensis Seed Lectin
pdb|2GME|B Chain B, Metal-Free (Apo) P. Angolensis Seed Lectin
pdb|2GMM|A Chain A, Metal-Free (Apo) P. Angolensis Seed Lectin In Complex With
Man-Alpha(1-2)man
pdb|2GMM|B Chain B, Metal-Free (Apo) P. Angolensis Seed Lectin In Complex With
Man-Alpha(1-2)man
pdb|2GMP|A Chain A, Metal-free (apo) P. Angolensis Seed Lectin In Complex With
Glcnac- Beta(1-2)man
pdb|2GMP|B Chain B, Metal-free (apo) P. Angolensis Seed Lectin In Complex With
Glcnac- Beta(1-2)man
pdb|2GN3|A Chain A, Metal-Free (Apo-Pal) In Complex With Alpha-D-Met-Man
pdb|2GN3|B Chain B, Metal-Free (Apo-Pal) In Complex With Alpha-D-Met-Man
pdb|2GN7|A Chain A, Metal-free (apo) P. Angolensis Seed Lectin In Complex With
Man-alpha(1-3)man-alpha(1-6)man
pdb|2GN7|B Chain B, Metal-free (apo) P. Angolensis Seed Lectin In Complex With
Man-alpha(1-3)man-alpha(1-6)man
pdb|2GNB|A Chain A, Edta-Treated (2 Weeks) P. Angolensis Lectin
pdb|2GNB|B Chain B, Edta-Treated (2 Weeks) P. Angolensis Lectin
pdb|2GND|A Chain A, One Hour Edta Treatment, P. Angolensis Lectin
pdb|2GND|B Chain B, One Hour Edta Treatment, P. Angolensis Lectin
pdb|2GNM|A Chain A, P. Angolensis Lectin (Pal) Treated With Edta For 39 Hours
pdb|2GNM|B Chain B, P. Angolensis Lectin (Pal) Treated With Edta For 39 Hours
pdb|2GNT|A Chain A, Edta Treated P. Angolensis Lectin (Pal) Remetallized With
Calcium (1 Hour Treatment)
pdb|2GNT|B Chain B, Edta Treated P. Angolensis Lectin (Pal) Remetallized With
Calcium (1 Hour Treatment)
pdb|2AUY|A Chain A, Pterocarpus Angolensis Lectin In Complex With The
Trisaccharide Glcnac(b1-2)man(a1-3)man
pdb|2AUY|B Chain B, Pterocarpus Angolensis Lectin In Complex With The
Trisaccharide Glcnac(b1-2)man(a1-3)man
pdb|2PHF|A Chain A, Pterocarpus Angolensis Lectin Complexed With Man-6
pdb|2PHF|B Chain B, Pterocarpus Angolensis Lectin Complexed With Man-6
pdb|2PHR|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With
Man-7d1
pdb|2PHR|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With
Man-7d1
pdb|2PHT|A Chain A, Pterocarpus Angolensis Lectin (P L) In Complex With
Man-7d3
pdb|2PHT|B Chain B, Pterocarpus Angolensis Lectin (P L) In Complex With
Man-7d3
pdb|2PHU|A Chain A, Pterocarpus Angolensis Lectin In Complex With Man-8d1d3
pdb|2PHU|B Chain B, Pterocarpus Angolensis Lectin In Complex With Man-8d1d3
pdb|2PHW|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With Man-9
pdb|2PHW|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With Man-9
pdb|2PHX|A Chain A, Pterocarpus Angolensis Lectin (Pal) In Complex With Man-5
pdb|2PHX|B Chain B, Pterocarpus Angolensis Lectin (Pal) In Complex With Man-5
Length = 252
Score = 52.0 bits (123), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 35/118 (29%), Positives = 61/118 (51%), Gaps = 11/118 (9%)
Query: 82 LAVELDTF----KNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
+AVE DTF N +D + H+ ID SI S+ + D + G+++ V++ +N
Sbjct: 125 IAVEFDTFYAQDSNTWDPNYPHIGIDVNSI------RSVKTVKWDRRDGQSLNVLVTFNP 178
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTS 195
S + V +D + + +++ ++P V VGF+AA+G ++H L WS TS
Sbjct: 179 STRNLDVVATYSDGT-RYEVSYEVDVRSVLPEWVRVGFSAASGEQYQTHTLESWSFTS 235
>pdb|1SFY|A Chain A, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
pdb|1SFY|B Chain B, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
pdb|1SFY|C Chain C, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
pdb|1SFY|D Chain D, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
pdb|1SFY|E Chain E, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
pdb|1SFY|F Chain F, Crystal Structure Of Recombinant Erythrina Corallodandron
Lectin
Length = 239
Score = 49.7 bits (117), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 35/116 (30%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
L VE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LGVEFDTFSNQWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
L++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 LLHAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|1LTE|A Chain A, Structure Of A Legume Lectin With An Ordered N-Linked
Carbohydrate In Complex With Lactose
Length = 239
Score = 49.7 bits (117), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 35/116 (30%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
L VE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LGVEFDTFSNPWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
L++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 LLHAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|1GZ9|A Chain A, High-Resolution Crystal Structure Of Erythrina Cristagalli
Lectin In Complex With 2'-Alpha-L-Fucosyllactose
pdb|1GZC|A Chain A, High-Resolution Crystal Structure Of Erythrina Cristagalli
Lectin In Complex With Lactose
Length = 239
Score = 49.3 bits (116), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 35/116 (30%), Positives = 57/116 (49%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
LAVE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+
Sbjct: 124 LAVEFDTFSNPWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDAPSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
+++V + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 ILHVVLVYPSSGAIYTIAEIVDVKQVLPDWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|1AX0|A Chain A, Erythrina Corallodendron Lectin In Complex With
N-Actylgalactosamine
pdb|1AX1|A Chain A, Erythrina Corallodendron Lectin In Complex With Lactose
pdb|1AX2|A Chain A, Erythrina Corallodendron Lectin In Complex With
N-Acetyllactosamine
pdb|1AXY|A Chain A, Erythrina Corallodendron Lectin
pdb|1AXZ|A Chain A, Erythrina Corallodendron Lectin In Complex With
D-Galactose
Length = 239
Score = 48.5 bits (114), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 34/116 (29%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
L VE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LGVEFDTFSNPWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
+++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 ILHAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|3N35|A Chain A, Erythrina Corallodendron Lectin Mutant (Y106g) With N-
Acetylgalactosamine
pdb|3N36|A Chain A, Erythrina Corallodendron Lectin Mutant (Y106g) In Complex
With Galactose
pdb|3N3H|A Chain A, Erythrina Corallodendron Lectin Mutant (Y106g) In Complex
With Citrate
Length = 242
Score = 48.5 bits (114), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 34/116 (29%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
L VE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LGVEFDTFSNQWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
+++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 ILHAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|1UZY|A Chain A, Erythrina Crystagalli Lectin
pdb|1UZY|B Chain B, Erythrina Crystagalli Lectin
pdb|1UZZ|A Chain A, Erythrina Cristagalli Bound To N-Linked Oligosaccharide
And Lactose
pdb|1UZZ|B Chain B, Erythrina Cristagalli Bound To N-Linked Oligosaccharide
And Lactose
pdb|1UZZ|C Chain C, Erythrina Cristagalli Bound To N-Linked Oligosaccharide
And Lactose
pdb|1UZZ|D Chain D, Erythrina Cristagalli Bound To N-Linked Oligosaccharide
And Lactose
pdb|1V00|A Chain A, Erythrina Cristagalli Lectin
pdb|1V00|B Chain B, Erythrina Cristagalli Lectin
pdb|1V00|C Chain C, Erythrina Cristagalli Lectin
pdb|1V00|D Chain D, Erythrina Cristagalli Lectin
Length = 242
Score = 48.5 bits (114), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 35/116 (30%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
LAVE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LAVEFDTFSNPWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 ILLAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|1FYU|A Chain A, Crystal Structure Of Erythrina Corallodendron Lectin In
Hexagonal Crystal Form
pdb|1FYU|B Chain B, Crystal Structure Of Erythrina Corallodendron Lectin In
Hexagonal Crystal Form
Length = 255
Score = 48.1 bits (113), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 34/116 (29%), Positives = 56/116 (48%), Gaps = 10/116 (8%)
Query: 82 LAVELDTFKNDFDVDG-NHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
L VE DTF N +D H+ ID SI S+ + L +G+ V+I+Y+ S
Sbjct: 124 LGVEFDTFSNPWDPPQVPHIGIDVNSI------RSIKTQPFQLDNGQVANVVIKYDASSK 177
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSL 193
+++ + I + +++ ++P V VG + ATGA AE+H + WS
Sbjct: 178 ILHAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSF 233
>pdb|2ZBJ|A Chain A, Crystal Structure Of Dioclea Rostrata Lectin
Length = 237
Score = 47.0 bits (110), Expect = 8e-06, Method: Compositional matrix adjust.
Identities = 37/117 (31%), Positives = 60/117 (51%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 5 VAVELDSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V T + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYTGSS-STTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|2OVU|A Chain A, Crystal Strucure Of A Lectin From Canavalia Gladiata (Cgl)
In Complex With Man1-2man-Ome
Length = 237
Score = 46.2 bits (108), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 38/119 (31%), Positives = 61/119 (51%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN--G 137
+AVELDT+ N D D H+ ID S V S + ++++GK T I YN G
Sbjct: 5 VAVELDTYPNTDIGDPDYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVG 58
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V+ + D + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYPNGDSA---TVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2JE9|A Chain A, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Complexed With
5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
pdb|2JE9|B Chain B, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Complexed With
5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
pdb|2JE9|C Chain C, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Complexed With
5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
pdb|2JE9|D Chain D, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Complexed With
5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
Length = 239
Score = 46.2 bits (108), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 36/117 (30%), Positives = 59/117 (50%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 7 VAVELDSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 60
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 61 KRLSA-VVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 116
>pdb|1MVQ|A Chain A, Cratylia Mollis Lectin (Isoform 1) In Complex With
Methyl-Alpha-D- Mannose
Length = 236
Score = 45.8 bits (107), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 38/119 (31%), Positives = 61/119 (51%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D H+ I+ SI S +T D+++GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPSYQHIGINIKSI------RSKATTRWDVQNGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKN--VIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L++I+P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVS---YPGGSSATVSYDVDLNNILPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2JEC|A Chain A, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Mutant E123a-H131n-K132q Complexed With
5-Bromo-4-Chloro-3- Indolyl-A-D-Mannose
pdb|2JEC|B Chain B, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Mutant E123a-H131n-K132q Complexed With
5-Bromo-4-Chloro-3- Indolyl-A-D-Mannose
pdb|2JEC|C Chain C, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Mutant E123a-H131n-K132q Complexed With
5-Bromo-4-Chloro-3- Indolyl-A-D-Mannose
pdb|2JEC|D Chain D, Crystal Structure Of Recombinant Dioclea Grandiflora
Lectin Mutant E123a-H131n-K132q Complexed With
5-Bromo-4-Chloro-3- Indolyl-A-D-Mannose
Length = 239
Score = 45.8 bits (107), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 36/117 (30%), Positives = 59/117 (50%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 7 VAVELDSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 60
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 61 KRLSA-VVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 116
>pdb|2GDF|A Chain A, Crystal Structure Of Dioclea Violacea Seed Lectin
pdb|2GDF|B Chain B, Crystal Structure Of Dioclea Violacea Seed Lectin
pdb|2GDF|C Chain C, Crystal Structure Of Dioclea Violacea Seed Lectin
pdb|2GDF|D Chain D, Crystal Structure Of Dioclea Violacea Seed Lectin
pdb|3AX4|A Chain A, Three-Dimensional Structure Of Lectin From Dioclea
Violacea And Comparative Vasorelaxant Effects With
Dioclea Rostrata
Length = 237
Score = 45.8 bits (107), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 36/117 (30%), Positives = 59/117 (50%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 5 VAVELDSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSA-VVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|3SH3|A Chain A, Crystal Structure Of A Pro-Inflammatory Lectin From The
Seeds Of Dioclea Wilsonii Standl
Length = 237
Score = 45.8 bits (107), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 36/117 (30%), Positives = 59/117 (50%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 5 VAVELDSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSA-VVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|1AVB|A Chain A, Arcelin-1 From Phaseolus Vulgaris L
pdb|1AVB|B Chain B, Arcelin-1 From Phaseolus Vulgaris L
Length = 226
Score = 45.4 bits (106), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 35/122 (28%), Positives = 56/122 (45%), Gaps = 14/122 (11%)
Query: 78 DMHQLAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
D H +AV DT N ++D N + +P+A ES N +G+ V I Y+
Sbjct: 114 DAHTVAVVFDTVSNRIEIDVNSI--------RPIATESCN---FGHNNGEKAEVRITYDS 162
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGA---LAESHQLLEWSLT 194
+N + V++ K + + L V V VGF+A +G+ E+H +L WS +
Sbjct: 163 PKNDLRVSLLYPSSEEKCHVSATVPLEKEVEDWVSVGFSATSGSKKETTETHNVLSWSFS 222
Query: 195 SQ 196
S
Sbjct: 223 SN 224
>pdb|1WUV|A Chain A, Crystal Structure Of Native Canavalia Gladiata Lectin
(Cgl): A Tetrameric Cona-Like Lectin
pdb|1WUV|D Chain D, Crystal Structure Of Native Canavalia Gladiata Lectin
(Cgl): A Tetrameric Cona-Like Lectin
pdb|1WUV|G Chain G, Crystal Structure Of Native Canavalia Gladiata Lectin
(Cgl): A Tetrameric Cona-Like Lectin
pdb|1WUV|J Chain J, Crystal Structure Of Native Canavalia Gladiata Lectin
(Cgl): A Tetrameric Cona-Like Lectin
pdb|2D7F|A Chain A, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds Complexed With Alpha-Methyl-Mannoside And Alpha-
Aminobutyric Acid
pdb|2D7F|F Chain F, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds Complexed With Alpha-Methyl-Mannoside And Alpha-
Aminobutyric Acid
pdb|2D7F|L Chain L, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds Complexed With Alpha-Methyl-Mannoside And Alpha-
Aminobutyric Acid
pdb|2D7F|S Chain S, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds Complexed With Alpha-Methyl-Mannoside And Alpha-
Aminobutyric Acid
pdb|2EF6|A Chain A, Canavalia Gladiata Lectin Complexed With Man1-3man-Ome
pdb|2EF6|B Chain B, Canavalia Gladiata Lectin Complexed With Man1-3man-Ome
pdb|2EF6|C Chain C, Canavalia Gladiata Lectin Complexed With Man1-3man-Ome
pdb|2EF6|D Chain D, Canavalia Gladiata Lectin Complexed With Man1-3man-Ome
pdb|2P2K|A Chain A, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds (Cgl) In Complex With Man1-4man-Ome
pdb|2P2K|B Chain B, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds (Cgl) In Complex With Man1-4man-Ome
pdb|2P2K|C Chain C, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds (Cgl) In Complex With Man1-4man-Ome
pdb|2P2K|D Chain D, Crystal Structure Of A Lectin From Canavalia Gladiata
Seeds (Cgl) In Complex With Man1-4man-Ome
Length = 237
Score = 45.1 bits (105), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 38/119 (31%), Positives = 61/119 (51%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN--G 137
+AVELDT+ N D N H+ ID S V S + ++++GK T I YN G
Sbjct: 5 VAVELDTYPNTDIGDPNYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVG 58
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V+ + D + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYPNGDSA---TVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|1CN1|A Chain A, Crystal Structure Of Demetallized Concanavalin A. The
Metal- Binding Region
pdb|1CN1|B Chain B, Crystal Structure Of Demetallized Concanavalin A. The
Metal- Binding Region
pdb|3CNA|A Chain A, Structure Of Concanavalin A At 2.4 Angstroms Resolution
Length = 237
Score = 45.1 bits (105), Expect = 3e-05, Method: Compositional matrix adjust.
Identities = 37/119 (31%), Positives = 59/119 (49%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D H+ ID S V S + +++ GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQDGKVGTAHIIYNSVD 58
Query: 140 NLIYVNVRDTDHPPKNV--IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L+D++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVS---YPNADATSVSYDVDLNDVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2CNA|A Chain A, The Covalent And Three-Dimensional Structure Of
Concanavalin A, Iv.Atomic Coordinates,Hydrogen
Bonding,And Quaternary Structure
Length = 237
Score = 45.1 bits (105), Expect = 3e-05, Method: Compositional matrix adjust.
Identities = 37/119 (31%), Positives = 59/119 (49%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D H+ ID S V S + +++ GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQDGKVGTAHIIYNSVD 58
Query: 140 NLIYVNVRDTDHPPKNV--IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L+D++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVS---YPNADATSVSYDVDLNDVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|1QMO|E Chain E, Structure Of Fril, A Legume Lectin That Delays
Hematopoietic Progenitor Maturation
pdb|1QMO|F Chain F, Structure Of Fril, A Legume Lectin That Delays
Hematopoietic Progenitor Maturation
pdb|1QMO|G Chain G, Structure Of Fril, A Legume Lectin That Delays
Hematopoietic Progenitor Maturation
pdb|1QMO|H Chain H, Structure Of Fril, A Legume Lectin That Delays
Hematopoietic Progenitor Maturation
Length = 133
Score = 45.1 bits (105), Expect = 3e-05, Method: Compositional matrix adjust.
Identities = 37/116 (31%), Positives = 51/116 (43%), Gaps = 9/116 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVE DT+ N D N H+ ID SI V + D ++GK T I YN
Sbjct: 4 VAVEFDTYLNPDYGDPNYIHIGIDVNSIRSKVTAK------WDWQNGKIATAHISYNSVS 57
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTS 195
+ V P + I L ++P V VG +A+TG E + + WS TS
Sbjct: 58 KRLSVTSYYAGSKPA-TLSYDIELHTVLPEWVRVGLSASTGQDKERNTVHSWSFTS 112
>pdb|3U4X|A Chain A, Crystal Structure Of A Lectin From Camptosema Pedicellatum
Seeds In Complex With
5-Bromo-4-Chloro-3-Indolyl-Alpha-D-Mannose
Length = 236
Score = 44.7 bits (104), Expect = 3e-05, Method: Compositional matrix adjust.
Identities = 38/119 (31%), Positives = 61/119 (51%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D N H+ I+ SI S +T +++ GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPNYQHIGINIKSI------RSKATTRWNVQDGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKN--VIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L++I+P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAIVS---YPGGSSATVSYDVDLNNILPEWVRVGLSASTGVYKETNTILSWSFTSK 114
>pdb|1FNY|A Chain A, Legume Lectin Of The Bark Of Robinia Pseudoacacia.
pdb|1FNZ|A Chain A, A Bark Lectin From Robinia Pseudoacacia In Complex With N-
Acetylgalactosamine
Length = 237
Score = 44.3 bits (103), Expect = 5e-05, Method: Compositional matrix adjust.
Identities = 33/119 (27%), Positives = 56/119 (47%), Gaps = 10/119 (8%)
Query: 82 LAVELDTFKN-DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQN 140
+AVE DTF N D+D G H+ I+ SI ES+ + + +G+ V I Y S
Sbjct: 122 VAVEFDTFSNGDWDPKGRHLGINVNSI------ESIKTVPWNWTNGEVANVFISYEASTK 175
Query: 141 LIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESHQLLEWSLTSQ 196
+ ++ +I +++ ++P V GF+A TG +++ +L WS S
Sbjct: 176 SLTASLVYPSLETSFIIDAIVDVKIVLPEWVRFGFSATTGIDKGYVQTNDVLSWSFESN 234
>pdb|2D3P|A Chain A, Cratylia Floribunda Seed Lectin Crystallized At Basic Ph
pdb|2D3P|B Chain B, Cratylia Floribunda Seed Lectin Crystallized At Basic Ph
pdb|2D3P|C Chain C, Cratylia Floribunda Seed Lectin Crystallized At Basic Ph
pdb|2D3P|D Chain D, Cratylia Floribunda Seed Lectin Crystallized At Basic Ph
pdb|2D3R|A Chain A, Cratylia Folibunda Seed Lectin At Acidic Ph
pdb|2D3R|B Chain B, Cratylia Folibunda Seed Lectin At Acidic Ph
pdb|2D3R|C Chain C, Cratylia Folibunda Seed Lectin At Acidic Ph
pdb|2D3R|D Chain D, Cratylia Folibunda Seed Lectin At Acidic Ph
Length = 236
Score = 44.3 bits (103), Expect = 5e-05, Method: Compositional matrix adjust.
Identities = 38/119 (31%), Positives = 61/119 (51%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D N H+ I+ SI S +T +++ GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPNYQHIGINIKSI------RSKATTRWNVQDGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKN--VIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L++I+P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAIVS---YPGGSSATVSYDVDLNNILPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|1DGL|A Chain A, Lectin From Dioclea Grandiflora Complexed To Trimannoside
pdb|1DGL|B Chain B, Lectin From Dioclea Grandiflora Complexed To Trimannoside
Length = 237
Score = 43.9 bits (102), Expect = 6e-05, Method: Compositional matrix adjust.
Identities = 35/117 (29%), Positives = 59/117 (50%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKNDFDVDGN--HVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVEL+++ N D N H+ ID SI S ++ ++++GK TV I YN
Sbjct: 5 VAVELNSYPNTDIGDPNYPHIGIDIKSI------RSKSTARWNMQTGKVGTVHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSA-VVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|1H9P|A Chain A, Crystal Structure Of Dioclea Guianensis Seed Lectin
Length = 237
Score = 43.9 bits (102), Expect = 6e-05, Method: Compositional matrix adjust.
Identities = 35/117 (29%), Positives = 58/117 (49%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID SI S ++ ++++GK T I YN
Sbjct: 5 VAVELDSYPNTDIGDPSYPHIGIDIKSI------RSKSTARWNMQTGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V T + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYTGSS-STTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|3RRD|A Chain A, Native Structure Of Dioclea Virgata Lectin
pdb|3RS6|A Chain A, Crystal Structure Dioclea Virgata Lectin In Complexed With
X-Mannose
Length = 237
Score = 43.9 bits (102), Expect = 6e-05, Method: Compositional matrix adjust.
Identities = 35/117 (29%), Positives = 58/117 (49%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID S V S ++ ++++GK T I YN
Sbjct: 5 VAVELDSYPNTDIGDPSYPHIGIDIKS------VRSKSTARWNMQTGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V T + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYTGSS-STTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|1H9W|A Chain A, Native Dioclea Guianensis Seed Lectin
pdb|1H9W|B Chain B, Native Dioclea Guianensis Seed Lectin
Length = 237
Score = 43.9 bits (102), Expect = 6e-05, Method: Compositional matrix adjust.
Identities = 35/117 (29%), Positives = 58/117 (49%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID SI S ++ ++++GK T I YN
Sbjct: 5 VAVELDSYPNTDIGDPSYPHIGIDIKSI------RSKSTARWNMQTGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V T + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYTGSS-STTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|1AZD|A Chain A, Concanavalin From Canavalia Brasiliensis
pdb|1AZD|B Chain B, Concanavalin From Canavalia Brasiliensis
pdb|1AZD|C Chain C, Concanavalin From Canavalia Brasiliensis
pdb|1AZD|D Chain D, Concanavalin From Canavalia Brasiliensis
pdb|3JU9|A Chain A, Crystal Structure Of A Lectin From Canavalia Brasiliensis
Seed (conbr) Complexed With Alpha-aminobutyric Acid
pdb|4H55|A Chain A, Crystal Structure Of Canavalia Brasiliensis Seed Lectin
(Conbr) In Complex With Beta-D-Ribofuranose
Length = 237
Score = 43.9 bits (102), Expect = 7e-05, Method: Compositional matrix adjust.
Identities = 37/119 (31%), Positives = 60/119 (50%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN--G 137
+AVELDT+ N D H+ ID S V S + ++++GK T I YN G
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVG 58
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V+ + D + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYPNGDSA---TVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|1DBN|A Chain A, Maackia Amurensis Leukoagglutinin (Lectin) With
Sialyllactose
pdb|1DBN|B Chain B, Maackia Amurensis Leukoagglutinin (Lectin) With
Sialyllactose
Length = 239
Score = 43.5 bits (101), Expect = 9e-05, Method: Compositional matrix adjust.
Identities = 34/120 (28%), Positives = 55/120 (45%), Gaps = 12/120 (10%)
Query: 82 LAVELDTF----KNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
+AVE DT+ + +D + H+ ID I ES+ + D +G I Y
Sbjct: 124 VAVEFDTYFAHSYDPWDPNYRHIGIDVNGI------ESIKTVQWDWINGGVAFATITYLA 177
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG--ALAESHQLLEWSLTS 195
+ ++ + + ++L +I+P V VGF+AATG E+H +L WS TS
Sbjct: 178 PNKTLIASLVYPSNQTTFSVAASVDLKEILPEWVRVGFSAATGYPTEVETHDVLSWSFTS 237
>pdb|3A0K|A Chain A, Crystal Structure Of An Antiflamatory Legume Lectin From
Cymbosema Roseum Seeds
pdb|3A0K|C Chain C, Crystal Structure Of An Antiflamatory Legume Lectin From
Cymbosema Roseum Seeds
pdb|3A0K|E Chain E, Crystal Structure Of An Antiflamatory Legume Lectin From
Cymbosema Roseum Seeds
pdb|3A0K|G Chain G, Crystal Structure Of An Antiflamatory Legume Lectin From
Cymbosema Roseum Seeds
Length = 237
Score = 43.1 bits (100), Expect = 9e-05, Method: Compositional matrix adjust.
Identities = 34/117 (29%), Positives = 57/117 (48%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID SI S ++ ++++GK T I YN
Sbjct: 5 VAVELDSYPNTDIGDPSYPHIGIDIKSI------RSKSTARWNMQTGKVGTAHISYNSVA 58
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 59 KRLTA-VVSYSGSSSTTVSYDVDLTNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 114
>pdb|1FAY|A Chain A, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|B Chain B, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|C Chain C, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|D Chain D, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|E Chain E, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|F Chain F, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|G Chain G, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1FAY|H Chain H, Winged Bean Acidic Lectin Complexed With
Methyl-Alpha-D-Galactose (Monoclinic Form)
pdb|1F9K|A Chain A, Winged Bean Acidic Lectin Complexed With
Methyl-alpha-d-galactose
pdb|1F9K|B Chain B, Winged Bean Acidic Lectin Complexed With
Methyl-alpha-d-galactose
Length = 238
Score = 43.1 bits (100), Expect = 9e-05, Method: Compositional matrix adjust.
Identities = 39/121 (32%), Positives = 62/121 (51%), Gaps = 15/121 (12%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
AVE DTF+N +D H+ ID SI V+ ++L+ L++G V+I+Y+ +
Sbjct: 120 FAVEFDTFQNTWDPQVPHIGIDVNSI---VSSKTLH---FQLENGGVANVVIKYDSPTKI 173
Query: 142 IYVNVRDTDHPPKNV--IKQPINLSDIVPSS--VYVGFTAATG---ALAESHQLLEWSLT 194
+ NV H V + ++L P+S V VG +A TG E+H+++ WS T
Sbjct: 174 L--NVVLAFHSVGTVYTLSNIVDLKQEFPNSEWVNVGLSATTGYQKNAVETHEIISWSFT 231
Query: 195 S 195
S
Sbjct: 232 S 232
>pdb|2CWM|A Chain A, Native Crystal Structure Of No Releasing Inductive Lectin
From Seeds Of The Canavalia Maritima (Conm)
pdb|2CWM|D Chain D, Native Crystal Structure Of No Releasing Inductive Lectin
From Seeds Of The Canavalia Maritima (Conm)
pdb|2CY6|A Chain A, Crystal Structure Of Conm In Complex With Trehalose And
Maltose
pdb|2CY6|D Chain D, Crystal Structure Of Conm In Complex With Trehalose And
Maltose
pdb|2CYF|A Chain A, The Crystal Structure Of Canavalia Maritima Lectin (Conm)
In Complex With Trehalose And Maltose
pdb|2CYF|C Chain C, The Crystal Structure Of Canavalia Maritima Lectin (Conm)
In Complex With Trehalose And Maltose
pdb|2P37|A Chain A, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-3man-Ome
pdb|2P37|B Chain B, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-3man-Ome
pdb|2P37|C Chain C, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-3man-Ome
pdb|2P37|D Chain D, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-3man-Ome
pdb|2P34|A Chain A, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-4man-Ome
pdb|2P34|B Chain B, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-4man-Ome
pdb|2P34|C Chain C, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-4man-Ome
pdb|2P34|D Chain D, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Cml) In Complex With Man1-4man-Ome
pdb|3SNM|A Chain A, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds Complexed With Indole-3-Acetic Acid
pdb|4I30|A Chain A, Crystal Structure Of Canavalia Maritima Seeds Lectin
(Conm) Co- Crystalized With Gamma-Aminobutyric Acid
(Gaba) And Soaked With Adenine
Length = 237
Score = 43.1 bits (100), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 37/119 (31%), Positives = 60/119 (50%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN--G 137
+AVELDT+ N D H+ ID S V S + ++++GK T I YN G
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVG 58
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V+ + D + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYPNGDSA---TVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2OW4|A Chain A, Crystal Structure Of A Lectin From Canavalia Maritima
Seeds (Conm) In Complex With Man1-2man-Ome
Length = 237
Score = 43.1 bits (100), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 37/119 (31%), Positives = 60/119 (50%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN--G 137
+AVELDT+ N D H+ ID S V S + ++++GK T I YN G
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVG 58
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V+ + D + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVSYPNGDSA---TVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2YZ4|A Chain A, The Neutron Structure Of Concanavalin A At 2.2 Angstroms
Length = 237
Score = 43.1 bits (100), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 36/119 (30%), Positives = 59/119 (49%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D H+ ID S V S + ++++GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVD 58
Query: 140 NLIYVNVRDTDHPPKN--VIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVS---YPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2CTV|A Chain A, High Resolution Crystallographic Studies Of Native
Concanavalin A Using Rapid Laue Data Collection Methods
And The Introduction Of A Monochromatic Large-Angle
Oscillation Technique (Lot)
pdb|1CON|A Chain A, The Refined Structure Of Cadmium Substituted Concanavalin
A At 2.0 Angstroms Resolution
pdb|5CNA|A Chain A, Refined Structure Of Concanavalin A Complexed With Alpha-
Methyl-D-Mannopyranoside At 2.0 Angstroms Resolution And
Comparison With The Saccharide-Free Structure
pdb|5CNA|B Chain B, Refined Structure Of Concanavalin A Complexed With Alpha-
Methyl-D-Mannopyranoside At 2.0 Angstroms Resolution And
Comparison With The Saccharide-Free Structure
pdb|5CNA|C Chain C, Refined Structure Of Concanavalin A Complexed With Alpha-
Methyl-D-Mannopyranoside At 2.0 Angstroms Resolution And
Comparison With The Saccharide-Free Structure
pdb|5CNA|D Chain D, Refined Structure Of Concanavalin A Complexed With Alpha-
Methyl-D-Mannopyranoside At 2.0 Angstroms Resolution And
Comparison With The Saccharide-Free Structure
pdb|1APN|A Chain A, The Crystallographic Structure Of Metal-Free Concanavalin
A At 2.5 Angstroms Resolution
pdb|1APN|B Chain B, The Crystallographic Structure Of Metal-Free Concanavalin
A At 2.5 Angstroms Resolution
pdb|1CVN|A Chain A, Concanavalin A Complexed To Trimannoside
pdb|1CVN|B Chain B, Concanavalin A Complexed To Trimannoside
pdb|1CVN|C Chain C, Concanavalin A Complexed To Trimannoside
pdb|1CVN|D Chain D, Concanavalin A Complexed To Trimannoside
pdb|1ENS|A Chain A, Crystals Of Demetallized Concanavalin A Soaked With Cobalt
Having A Cobalt Ion Bound In The S1 Site
pdb|1ENS|B Chain B, Crystals Of Demetallized Concanavalin A Soaked With Cobalt
Having A Cobalt Ion Bound In The S1 Site
pdb|1ENQ|A Chain A, Co-Crystals Of Demetallized Concanavalin A With Zinc
Having A Zinc Ion Bound In The S1 Site
pdb|1ENQ|B Chain B, Co-Crystals Of Demetallized Concanavalin A With Zinc
Having A Zinc Ion Bound In The S1 Site
pdb|1ENQ|C Chain C, Co-Crystals Of Demetallized Concanavalin A With Zinc
Having A Zinc Ion Bound In The S1 Site
pdb|1ENQ|D Chain D, Co-Crystals Of Demetallized Concanavalin A With Zinc
Having A Zinc Ion Bound In The S1 Site
pdb|1CES|A Chain A, Crystals Of Demetallized Concanavalin A Soaked With Zinc
Have A Zinc Ion Bound In The S1 Site
pdb|1CES|B Chain B, Crystals Of Demetallized Concanavalin A Soaked With Zinc
Have A Zinc Ion Bound In The S1 Site
pdb|1VAL|A Chain A, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Glucopyranoside
pdb|1VAL|B Chain B, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Glucopyranoside
pdb|1VAL|C Chain C, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Glucopyranoside
pdb|1VAL|D Chain D, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Glucopyranoside
pdb|1VAM|A Chain A, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Mannopyranoside
pdb|1VAM|B Chain B, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Mannopyranoside
pdb|1VAM|C Chain C, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Mannopyranoside
pdb|1VAM|D Chain D, Concanavalin A Complex With 4'-Nitrophenyl-Alpha-D-
Mannopyranoside
pdb|1VLN|A Chain A, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|B Chain B, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|C Chain C, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|D Chain D, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|E Chain E, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|F Chain F, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|G Chain G, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1VLN|H Chain H, A Triclinic Crystal Form Of The Lectin Concanavalin A
pdb|1GIC|A Chain A, Concanavalin A Complexed With Methyl
Alpha-d-glucopyranoside
pdb|1GIC|B Chain B, Concanavalin A Complexed With Methyl
Alpha-d-glucopyranoside
pdb|1TEI|A Chain A, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|B Chain B, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|C Chain C, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|D Chain D, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|E Chain E, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|F Chain F, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|G Chain G, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1TEI|H Chain H, Structure Of Concanavalin A Complexed To Beta-D-Glcnac
(1,2)alpha-D- Man-(1,6)[beta-D-Glcnac(1,2)alpha-D-Man
(1,6)]alpha-D-Man
pdb|1ONA|A Chain A, Co-Crystals Of Concanavalin A With
Methyl-3,6-Di-O-(Alpha-D-
Mannopyranosyl)-Alpha-D-Mannopyranoside
pdb|1ONA|B Chain B, Co-Crystals Of Concanavalin A With
Methyl-3,6-Di-O-(Alpha-D-
Mannopyranosyl)-Alpha-D-Mannopyranoside
pdb|1ONA|C Chain C, Co-Crystals Of Concanavalin A With
Methyl-3,6-Di-O-(Alpha-D-
Mannopyranosyl)-Alpha-D-Mannopyranoside
pdb|1ONA|D Chain D, Co-Crystals Of Concanavalin A With
Methyl-3,6-Di-O-(Alpha-D-
Mannopyranosyl)-Alpha-D-Mannopyranoside
pdb|1CJP|A Chain A, Concanavalin A Complex With 4'-Methylumbelliferyl-Alpha-D-
Glucopyranoside
pdb|1CJP|B Chain B, Concanavalin A Complex With 4'-Methylumbelliferyl-Alpha-D-
Glucopyranoside
pdb|1CJP|C Chain C, Concanavalin A Complex With 4'-Methylumbelliferyl-Alpha-D-
Glucopyranoside
pdb|1CJP|D Chain D, Concanavalin A Complex With 4'-Methylumbelliferyl-Alpha-D-
Glucopyranoside
pdb|1BXH|A Chain A, Concanavalin A Complexed To Methyl Alpha1-2 Mannobioside
pdb|1BXH|B Chain B, Concanavalin A Complexed To Methyl Alpha1-2 Mannobioside
pdb|1BXH|C Chain C, Concanavalin A Complexed To Methyl Alpha1-2 Mannobioside
pdb|1BXH|D Chain D, Concanavalin A Complexed To Methyl Alpha1-2 Mannobioside
pdb|1QGL|A Chain A, Room Temperature Structure Of Concanavalin A Complexed To
Bivalent Ligand
pdb|1QGL|B Chain B, Room Temperature Structure Of Concanavalin A Complexed To
Bivalent Ligand
pdb|1QDC|A Chain A, Man(aplha1-6)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDC|B Chain B, Man(aplha1-6)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDC|C Chain C, Man(aplha1-6)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDC|D Chain D, Man(aplha1-6)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDO|A Chain A, Man(aplha1-3)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDO|B Chain B, Man(aplha1-3)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDO|C Chain C, Man(aplha1-3)man(alpha1-o)methyl Concanavalin A Complex
pdb|1QDO|D Chain D, Man(aplha1-3)man(alpha1-o)methyl Concanavalin A Complex
pdb|1DQ0|A Chain A, Locked, Metal-Free Concanavalin A, A Minor Species In
Solution
pdb|1DQ1|A Chain A, Calcium;calcium Concanavalin A
pdb|1DQ2|A Chain A, Unlocked Metal-Free Concanavalin A
pdb|1DQ2|B Chain B, Unlocked Metal-Free Concanavalin A
pdb|1DQ4|A Chain A, A Transient Unlocked Concanavalin A Structure With Mn2+
Bound In The Transition Metal Ion Binding Site S1 And An
Empty Calcium Binding Site S2
pdb|1DQ4|B Chain B, A Transient Unlocked Concanavalin A Structure With Mn2+
Bound In The Transition Metal Ion Binding Site S1 And An
Empty Calcium Binding Site S2
pdb|1DQ5|A Chain A, Manganese;manganese Concanavalin A At Ph 5.0
pdb|1DQ6|A Chain A, Manganese;manganese Concanavalin A At Ph 7.0
pdb|1QNY|A Chain A, X-Ray Refinement Of D2o Soaked Crystal Of Concanavalin A
pdb|1C57|A Chain A, Direct Determination Of The Positions Of Deuterium Atoms
Of Bound Water In Concanavalin A By Neutron Laue
Crystallography
pdb|3ENR|A Chain A, Zinc-Calcium Concanavalin A At Ph 6.15
pdb|3ENR|B Chain B, Zinc-Calcium Concanavalin A At Ph 6.15
pdb|1I3H|A Chain A, Concanavalin A-Dimannose Structure
pdb|1GKB|A Chain A, Concanavalin A, New Crystal Form
pdb|1GKB|B Chain B, Concanavalin A, New Crystal Form
pdb|1JW6|A Chain A, Crystal Structure Of The Complex Of Concanavalin A And
Hexapeptide
pdb|1JOJ|A Chain A, Concanavalin A-Hexapeptide Complex
pdb|1JOJ|B Chain B, Concanavalin A-Hexapeptide Complex
pdb|1JOJ|C Chain C, Concanavalin A-Hexapeptide Complex
pdb|1JOJ|D Chain D, Concanavalin A-Hexapeptide Complex
pdb|1JUI|A Chain A, Concanavalin A-Carbohydrate Mimicking 10-Mer Peptide
Complex
pdb|1JUI|B Chain B, Concanavalin A-Carbohydrate Mimicking 10-Mer Peptide
Complex
pdb|1JUI|C Chain C, Concanavalin A-Carbohydrate Mimicking 10-Mer Peptide
Complex
pdb|1JUI|D Chain D, Concanavalin A-Carbohydrate Mimicking 10-Mer Peptide
Complex
pdb|1JYC|A Chain A, Concanavalin A15-Mer Peptide Complex
pdb|1JYC|B Chain B, Concanavalin A15-Mer Peptide Complex
pdb|1JYC|C Chain C, Concanavalin A15-Mer Peptide Complex
pdb|1JYC|D Chain D, Concanavalin A15-Mer Peptide Complex
pdb|1JYI|A Chain A, Concanavalin A/12-mer Peptide Complex
pdb|1JYI|B Chain B, Concanavalin A/12-mer Peptide Complex
pdb|1JYI|C Chain C, Concanavalin A/12-mer Peptide Complex
pdb|1JYI|D Chain D, Concanavalin A/12-mer Peptide Complex
pdb|1JN2|P Chain P, Crystal Structure Of Meso-Tetrasulphonatophenyl Porphyrin
Complexed With Concanavalin A
pdb|1HQW|A Chain A, Crystal Structure Of The Complex Of Concanavalin A With A
Tripeptide Ypy
pdb|1NXD|1 Chain 1, Crystal Structure Of Mnmn Concanavalin A
pdb|1NXD|2 Chain 2, Crystal Structure Of Mnmn Concanavalin A
pdb|1NXD|3 Chain 3, Crystal Structure Of Mnmn Concanavalin A
pdb|1NXD|4 Chain 4, Crystal Structure Of Mnmn Concanavalin A
pdb|1XQN|A Chain A, The 15k Neutron Structure Of Saccharide-Free Concanavalin
A
pdb|2A7A|A Chain A, On The Routine Use Of Soft X-Rays In Macromolecular
Crystallography, Part Iii- The Optimal Data Collection
Wavelength
pdb|2G4I|A Chain A, Anomalous Substructure Of Concanavalin A
pdb|1ENR|A Chain A, Co-Crystals Of Demetallized Concanavalin A With Zinc And
Calcium Having A Zinc Ion Bound In The S1 Site And A
Calcium Ion Bound In The S2 Site
pdb|1JBC|A Chain A, Concanavalin A
pdb|1NLS|A Chain A, Concanavalin A And Its Bound Solvent At 0.94a Resolution
pdb|1SCR|A Chain A, High-Resolution Structures Of Single-Metal-Substituted
Concanavalin A: The Co,Ca-Protein At 1.6 Angstroms And
The Ni,Ca-Protein At 2.0 Angstroms
pdb|1SCS|A Chain A, High-Resolution Structures Of Single-Metal-Substituted
Concanavalin A: The Co,Ca-Protein At 1.6 Angstroms And
The Ni,Ca-Protein At 2.0 Angstroms
pdb|2ENR|A Chain A, Co-crystals Of Demetallized Concanavalin A With Cadmium
Having A Cadmium Ion Bound In Both The S1 Site And The
S2 Site
pdb|2UU8|A Chain A, X-Ray Structure Of Ni, Ca Concanavalin A At Ultra-High
Resolution (0.94a)
pdb|3D4K|A Chain A, Concanavalin A Complexed To A Synthetic Analog Of The
Trimannoside
pdb|3D4K|B Chain B, Concanavalin A Complexed To A Synthetic Analog Of The
Trimannoside
pdb|3D4K|C Chain C, Concanavalin A Complexed To A Synthetic Analog Of The
Trimannoside
pdb|3D4K|D Chain D, Concanavalin A Complexed To A Synthetic Analog Of The
Trimannoside
pdb|3NWK|A Chain A, A Second C2221 Form Of Concanavalin A (Canavalia
Ensiformis)
pdb|3NWK|B Chain B, A Second C2221 Form Of Concanavalin A (Canavalia
Ensiformis)
pdb|3NWK|C Chain C, A Second C2221 Form Of Concanavalin A (Canavalia
Ensiformis)
pdb|3NWK|D Chain D, A Second C2221 Form Of Concanavalin A (Canavalia
Ensiformis)
pdb|3QLQ|A Chain A, Crystal Structure Of Concanavalin A Bound To An
Octa-Alpha-Mannosyl- Octasilsesquioxane Cluster
pdb|3QLQ|B Chain B, Crystal Structure Of Concanavalin A Bound To An
Octa-Alpha-Mannosyl- Octasilsesquioxane Cluster
pdb|3QLQ|C Chain C, Crystal Structure Of Concanavalin A Bound To An
Octa-Alpha-Mannosyl- Octasilsesquioxane Cluster
pdb|3QLQ|D Chain D, Crystal Structure Of Concanavalin A Bound To An
Octa-Alpha-Mannosyl- Octasilsesquioxane Cluster
Length = 237
Score = 43.1 bits (100), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 36/119 (30%), Positives = 59/119 (49%), Gaps = 13/119 (10%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELDT+ N D H+ ID S V S + ++++GK T I YN
Sbjct: 5 VAVELDTYPNTDIGDPSYPHIGIDIKS------VRSKKTAKWNMQNGKVGTAHIIYNSVD 58
Query: 140 NLIYVNVRDTDHPPKN--VIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V +P + + ++L +++P V VG +A+TG E++ +L WS TS+
Sbjct: 59 KRLSAVVS---YPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSK 114
>pdb|2JDZ|A Chain A, Crystal Structure Of Recombinant Dioclea Guianensis Lectin
Complexed With 5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
Length = 239
Score = 42.7 bits (99), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 34/117 (29%), Positives = 57/117 (48%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID SI S ++ ++++GK T I YN
Sbjct: 7 VAVELDSYPNTDIGDPSYPHIGIDIKSI------RSKSTARWNMQTGKVGTAHISYNSVA 60
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 61 KRLSA-VVSYSGTSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 116
>pdb|2JE7|A Chain A, Crystal Structure Of Recombinant Dioclea Guianensis Lectin
S131h Complexed With
5-Bromo-4-Chloro-3-Indolyl-A-D-Mannose
Length = 239
Score = 42.7 bits (99), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 34/117 (29%), Positives = 57/117 (48%), Gaps = 9/117 (7%)
Query: 82 LAVELDTFKND--FDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVELD++ N D H+ ID SI S ++ ++++GK T I YN
Sbjct: 7 VAVELDSYPNTDIGDPSYPHIGIDIKSI------RSKSTARWNMQTGKVGTAHISYNSVA 60
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ V + ++L++++P V VG +A TG E++ +L WS TS+
Sbjct: 61 KRLSA-VVSYSGTSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSK 116
>pdb|1DHK|B Chain B, Structure Of Porcine Pancreatic Alpha-Amylase
Length = 223
Score = 42.7 bits (99), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 36/124 (29%), Positives = 56/124 (45%), Gaps = 15/124 (12%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+ VE DTF + +D N+ I S P V + G+N V I YN S +
Sbjct: 98 VTVEFDTFLSRISIDVNNNDIK----SVPWDVHDYD--------GQNAEVRITYNSSTKV 145
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA---ESHQLLEWSLTSQPL 198
V++ + N + + L V V VGF+A +GA E+H +L WS +S+ +
Sbjct: 146 FSVSLSNPSTGKSNNVSTTVELEKEVYDWVSVGFSATSGAYQWSYETHDVLSWSFSSKFI 205
Query: 199 PLSE 202
L +
Sbjct: 206 NLKD 209
>pdb|1VIW|B Chain B, Tenebrio Molitor Alpha-Amylase-Inhibitor Complex
Length = 205
Score = 41.6 bits (96), Expect = 3e-04, Method: Compositional matrix adjust.
Identities = 35/118 (29%), Positives = 53/118 (44%), Gaps = 15/118 (12%)
Query: 82 LAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQNL 141
+ VE DTF + +D N+ I S P V + G+N V I YN S +
Sbjct: 98 VTVEFDTFLSRISIDVNNNDIK----SVPWDVHDYD--------GQNAEVRITYNSSTKV 145
Query: 142 IYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALA---ESHQLLEWSLTSQ 196
V++ + N + + L V V VGF+A +GA E+H +L WS +S+
Sbjct: 146 FSVSLSNPSTGKSNNVSTTVELEKEVYDWVSVGFSATSGAYQWSYETHDVLSWSFSSK 203
>pdb|1BQP|B Chain B, The Structure Of The Pea Lectin-D-Mannopyranose Complex
pdb|1BQP|D Chain D, The Structure Of The Pea Lectin-D-Mannopyranose Complex
Length = 47
Score = 39.7 bits (91), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 16/36 (44%), Positives = 25/36 (69%)
Query: 161 INLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
++L D+VP V +GF+A TGA +H++L WS S+
Sbjct: 10 VSLKDVVPEWVRIGFSATTGAEYAAHEVLSWSFHSE 45
>pdb|1OFS|B Chain B, Pea Lectin-sucrose Complex
pdb|1OFS|D Chain D, Pea Lectin-sucrose Complex
Length = 48
Score = 39.7 bits (91), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 16/36 (44%), Positives = 25/36 (69%)
Query: 161 INLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
++L D+VP V +GF+A TGA +H++L WS S+
Sbjct: 10 VSLKDVVPEWVRIGFSATTGAEYAAHEVLSWSFHSE 45
>pdb|1RIN|D Chain D, X-Ray Crystal Structure Of A Pea Lectin-Trimannoside
Complex At 2.6 Angstroms Resolution
pdb|1RIN|B Chain B, X-Ray Crystal Structure Of A Pea Lectin-Trimannoside
Complex At 2.6 Angstroms Resolution
Length = 49
Score = 39.7 bits (91), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 16/36 (44%), Positives = 25/36 (69%)
Query: 161 INLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
++L D+VP V +GF+A TGA +H++L WS S+
Sbjct: 10 VSLKDVVPEWVRIGFSATTGAEYAAHEVLSWSFHSE 45
>pdb|2LTN|B Chain B, Design, Expression, And Crystallization Of Recombinant
Lectin From The Garden Pea (Pisum Sativum)
pdb|2LTN|D Chain D, Design, Expression, And Crystallization Of Recombinant
Lectin From The Garden Pea (Pisum Sativum)
pdb|1HKD|B Chain B, Structure Of Pea Lectin In Complex With Alpha-Methyl-D-
Glucopyranoside
pdb|1HKD|D Chain D, Structure Of Pea Lectin In Complex With Alpha-Methyl-D-
Glucopyranoside
Length = 52
Score = 39.3 bits (90), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 16/36 (44%), Positives = 25/36 (69%)
Query: 161 INLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
++L D+VP V +GF+A TGA +H++L WS S+
Sbjct: 10 VSLKDVVPEWVRIGFSATTGAEYAAHEVLSWSFHSE 45
>pdb|2EIG|A Chain A, Lotus Tetragonolobus Seed Lectin (Isoform)
pdb|2EIG|B Chain B, Lotus Tetragonolobus Seed Lectin (Isoform)
pdb|2EIG|C Chain C, Lotus Tetragonolobus Seed Lectin (Isoform)
pdb|2EIG|D Chain D, Lotus Tetragonolobus Seed Lectin (Isoform)
Length = 234
Score = 38.5 bits (88), Expect = 0.003, Method: Compositional matrix adjust.
Identities = 36/118 (30%), Positives = 53/118 (44%), Gaps = 11/118 (9%)
Query: 82 LAVELDTFKNDFD---VDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGS 138
+AVE D+ N +D + +H+ ID SI SL + + SG I Y+
Sbjct: 115 VAVEFDSHPNVWDPKSLRSSHIGIDVNSIM------SLKAVNWNRVSGSLEKATIIYDSD 168
Query: 139 QNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAAT-GALAESHQLLEWSLTS 195
++ V V + I Q I+L ++P V VGF+A T E H + WS TS
Sbjct: 169 TKILTV-VMTHQNGQITTISQEIDLKTVLPEKVSVGFSATTWNPERERHDIYSWSFTS 225
>pdb|2B7Y|B Chain B, Fava Bean Lectin-Glucose Complex
pdb|2B7Y|D Chain D, Fava Bean Lectin-Glucose Complex
Length = 51
Score = 38.1 bits (87), Expect = 0.004, Method: Composition-based stats.
Identities = 15/40 (37%), Positives = 26/40 (65%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L D+VP V +GF+A TGA +H++L W+ S+
Sbjct: 6 LSEVVPLKDVVPEWVRIGFSATTGAEYATHEVLSWTFLSE 45
>pdb|1LES|B Chain B, Lentil Lectin Complexed With Sucrose
pdb|1LES|D Chain D, Lentil Lectin Complexed With Sucrose
Length = 52
Score = 37.7 bits (86), Expect = 0.005, Method: Compositional matrix adjust.
Identities = 16/40 (40%), Positives = 25/40 (62%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L D+VP V +GF+A TGA +H++ WS SQ
Sbjct: 6 LNEVVPLKDVVPEWVRIGFSATTGAEFAAHEVHSWSFHSQ 45
>pdb|1LGC|A Chain A, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
pdb|1LGC|C Chain C, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
pdb|1LGC|E Chain E, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
Length = 181
Score = 37.4 bits (85), Expect = 0.006, Method: Compositional matrix adjust.
Identities = 24/68 (35%), Positives = 36/68 (52%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++GK V+I +N
Sbjct: 114 QTVAVEFDTFYNTAWDPSNGDRHIGIDVNSI------KSINTKSWKLQNGKEANVVIAFN 167
Query: 137 GSQNLIYV 144
G+ N++ V
Sbjct: 168 GATNVLTV 175
>pdb|1HQL|A Chain A, The Xenograft Antigen In Complex With The B4 Isolectin Of
Griffonia Simplicifolia Lectin-1
pdb|1HQL|B Chain B, The Xenograft Antigen In Complex With The B4 Isolectin Of
Griffonia Simplicifolia Lectin-1
Length = 257
Score = 37.0 bits (84), Expect = 0.007, Method: Compositional matrix adjust.
Identities = 32/101 (31%), Positives = 53/101 (52%), Gaps = 6/101 (5%)
Query: 82 LAVELDTFKN-DF-DVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVE DT+ N +F + H+ I+ SI V+V + D+ SGK T I Y+GS
Sbjct: 125 VAVEFDTWTNPNFPEPSYRHIGINVNSI---VSVATKRWEDSDIFSGKIATARISYDGSA 181
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG 180
++ V + D ++ +++ +P SV VG +A+TG
Sbjct: 182 EILTVVLSYPDG-SDYILSHSVDMRQNLPESVRVGISASTG 221
>pdb|1GNZ|A Chain A, Lectin I-B4 From Griffonia Simplicifolia (Gs I-B4)metal
Free Form
Length = 257
Score = 37.0 bits (84), Expect = 0.007, Method: Compositional matrix adjust.
Identities = 32/101 (31%), Positives = 53/101 (52%), Gaps = 6/101 (5%)
Query: 82 LAVELDTFKN-DF-DVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVE DT+ N +F + H+ I+ SI V+V + D+ SGK T I Y+GS
Sbjct: 125 VAVEFDTWTNPNFPEPSYRHIGINVNSI---VSVATKRWEDSDIFSGKIATARISYDGSA 181
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG 180
++ V + D ++ +++ +P SV VG +A+TG
Sbjct: 182 EILTVVLSYPDG-SDYILSHSVDMRQNLPESVRVGISASTG 221
>pdb|1IOA|A Chain A, Arcelin-5, A Lectin-Like Defense Protein From Phaseolus
Vulgaris
pdb|1IOA|B Chain B, Arcelin-5, A Lectin-Like Defense Protein From Phaseolus
Vulgaris
Length = 240
Score = 37.0 bits (84), Expect = 0.008, Method: Compositional matrix adjust.
Identities = 33/122 (27%), Positives = 54/122 (44%), Gaps = 14/122 (11%)
Query: 78 DMHQLAVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNG 137
+ +AV +TFKN D D N + +P E+ + +G+ V I Y+
Sbjct: 116 NARTVAVVFNTFKNRIDFDKNFI--------KPYVNENCD---FHKYNGEKTDVQITYDS 164
Query: 138 SQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATG---ALAESHQLLEWSLT 194
S N + V + T K + ++L V V VGF+ +G E+H +L WS +
Sbjct: 165 SNNDLRVFLHFTVSQVKCSVSATVHLEKEVDEWVSVGFSPTSGLTEDTTETHDVLSWSFS 224
Query: 195 SQ 196
S+
Sbjct: 225 SK 226
>pdb|1LGB|A Chain A, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
Length = 181
Score = 37.0 bits (84), Expect = 0.008, Method: Compositional matrix adjust.
Identities = 24/68 (35%), Positives = 36/68 (52%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++GK V+I +N
Sbjct: 114 QTVAVEFDTFYNTAWDPSNGDRHIGIDVNSI------KSINTKSWALQNGKEANVVIAFN 167
Query: 137 GSQNLIYV 144
G+ N++ V
Sbjct: 168 GATNVLTV 175
>pdb|2LAL|B Chain B, Crystal Structure Determination And Refinement At 2.3
Angstroms Resolution Of The Lentil Lectin
pdb|2LAL|D Chain D, Crystal Structure Determination And Refinement At 2.3
Angstroms Resolution Of The Lentil Lectin
pdb|1LEM|B Chain B, The Monosaccharide Binding Site Of Lentil Lectin: An X-Ray
And Molecular Modelling Study
pdb|1LEN|B Chain B, Refinement Of Two Crystal Forms Of Lentil Lectin At 1.8
Angstroms Resolution
pdb|1LEN|D Chain D, Refinement Of Two Crystal Forms Of Lentil Lectin At 1.8
Angstroms Resolution
Length = 52
Score = 35.0 bits (79), Expect = 0.029, Method: Compositional matrix adjust.
Identities = 15/40 (37%), Positives = 24/40 (60%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L D+VP V +GF+A TGA + ++ WS SQ
Sbjct: 6 LNEVVPLKDVVPEWVRIGFSATTGAEFAAQEVHSWSFNSQ 45
>pdb|1LOF|C Chain C, X-Ray Structure Of A Biantennary Octasaccharide-Lectin
Complex At 2.3 Angstroms Resolution
Length = 181
Score = 34.7 bits (78), Expect = 0.036, Method: Compositional matrix adjust.
Identities = 23/68 (33%), Positives = 35/68 (51%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++GK V+I +N
Sbjct: 114 QTVAVEFDTFYNTAWDPSNGDRHIGIDVNSI------KSINTKSWKLQNGKEANVVIAFN 167
Query: 137 GSQNLIYV 144
+ N++ V
Sbjct: 168 AATNVLTV 175
>pdb|1LOA|A Chain A, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|C Chain C, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|E Chain E, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|G Chain G, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOB|A Chain A, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|C Chain C, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|E Chain E, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|G Chain G, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOC|A Chain A, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|C Chain C, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|E Chain E, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|G Chain G, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|A Chain A, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|C Chain C, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|E Chain E, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|G Chain G, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOE|A Chain A, X-Ray Crystal Structure Determination And Refinement At
1.9 Angstroms Resolution Of Isolectin I From The Seeds
Of Lathyrus Ochrus
pdb|1LOE|C Chain C, X-Ray Crystal Structure Determination And Refinement At
1.9 Angstroms Resolution Of Isolectin I From The Seeds
Of Lathyrus Ochrus
pdb|1LOF|A Chain A, X-Ray Structure Of A Biantennary Octasaccharide-Lectin
Complex At 2.3 Angstroms Resolution
pdb|1LOG|A Chain A, X-Ray Structure Of A
(Alpha-Man(1-3)beta-Man(1-4)glcnac)-Lectin Complex At
2.1 Angstroms Resolution
pdb|1LOG|C Chain C, X-Ray Structure Of A
(Alpha-Man(1-3)beta-Man(1-4)glcnac)-Lectin Complex At
2.1 Angstroms Resolution
Length = 181
Score = 34.3 bits (77), Expect = 0.049, Method: Compositional matrix adjust.
Identities = 23/68 (33%), Positives = 35/68 (51%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++GK V+I +N
Sbjct: 114 QTVAVEFDTFYNTAWDPSNGDRHIGIDVNSI------KSINTKSWALQNGKEANVVIAFN 167
Query: 137 GSQNLIYV 144
+ N++ V
Sbjct: 168 AATNVLTV 175
>pdb|1LGB|B Chain B, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
Length = 53
Score = 34.3 bits (77), Expect = 0.052, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L + VP V +GF+A TGA +H++L W S+
Sbjct: 6 LNEVVPLKEFVPEWVRIGFSATTGAEFAAHEVLSWYFNSE 45
>pdb|1LOF|D Chain D, X-Ray Structure Of A Biantennary Octasaccharide-Lectin
Complex At 2.3 Angstroms Resolution
Length = 52
Score = 34.3 bits (77), Expect = 0.052, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L + VP V +GF+A TGA +H++L W S+
Sbjct: 6 LNEVVPLKEFVPEWVRIGFSATTGAEFAAHEVLSWYFHSE 45
>pdb|1LOA|B Chain B, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|D Chain D, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|F Chain F, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOA|H Chain H, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide-Binding Site
pdb|1LOB|B Chain B, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|D Chain D, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|F Chain F, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOB|H Chain H, Three-Dimensional Structures Of Complexes Of Lathyrus
Ochrus Isolectin I With Glucose And Mannose: Fine
Specificity Of The Monosaccharide- Binding Site
pdb|1LOC|B Chain B, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|D Chain D, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|F Chain F, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOC|H Chain H, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|B Chain B, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|D Chain D, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|F Chain F, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOD|H Chain H, Interaction Of A Legume Lectin With Two Components Of The
Bacterial Cell Wall
pdb|1LOE|B Chain B, X-Ray Crystal Structure Determination And Refinement At
1.9 Angstroms Resolution Of Isolectin I From The Seeds
Of Lathyrus Ochrus
pdb|1LOE|D Chain D, X-Ray Crystal Structure Determination And Refinement At
1.9 Angstroms Resolution Of Isolectin I From The Seeds
Of Lathyrus Ochrus
pdb|1LOF|B Chain B, X-Ray Structure Of A Biantennary Octasaccharide-Lectin
Complex At 2.3 Angstroms Resolution
pdb|1LOG|B Chain B, X-Ray Structure Of A
(Alpha-Man(1-3)beta-Man(1-4)glcnac)-Lectin Complex At
2.1 Angstroms Resolution
pdb|1LOG|D Chain D, X-Ray Structure Of A
(Alpha-Man(1-3)beta-Man(1-4)glcnac)-Lectin Complex At
2.1 Angstroms Resolution
Length = 52
Score = 34.3 bits (77), Expect = 0.053, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L + VP V +GF+A TGA +H++L W S+
Sbjct: 6 LNEVVPLKEFVPEWVRIGFSATTGAEFAAHEVLSWYFHSE 45
>pdb|1LGC|B Chain B, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
pdb|1LGC|D Chain D, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
pdb|1LGC|F Chain F, Interaction Of A Legume Lectin With The N2 Fragment Of
Human Lactotransferrin Or With The Isolated Biantennary
Glycopeptide: Role Of The Fucose Moiety
Length = 53
Score = 33.9 bits (76), Expect = 0.058, Method: Composition-based stats.
Identities = 14/40 (35%), Positives = 24/40 (60%)
Query: 157 IKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTSQ 196
+ + + L + VP V +GF+A TGA +H++L W S+
Sbjct: 6 LNEVVPLKEFVPEWVRIGFSATTGAEFAAHEVLSWYFNSE 45
>pdb|2LAL|A Chain A, Crystal Structure Determination And Refinement At 2.3
Angstroms Resolution Of The Lentil Lectin
pdb|2LAL|C Chain C, Crystal Structure Determination And Refinement At 2.3
Angstroms Resolution Of The Lentil Lectin
pdb|1LEM|A Chain A, The Monosaccharide Binding Site Of Lentil Lectin: An X-Ray
And Molecular Modelling Study
pdb|1LEN|A Chain A, Refinement Of Two Crystal Forms Of Lentil Lectin At 1.8
Angstroms Resolution
pdb|1LEN|C Chain C, Refinement Of Two Crystal Forms Of Lentil Lectin At 1.8
Angstroms Resolution
pdb|1LES|A Chain A, Lentil Lectin Complexed With Sucrose
pdb|1LES|C Chain C, Lentil Lectin Complexed With Sucrose
Length = 181
Score = 33.5 bits (75), Expect = 0.085, Method: Compositional matrix adjust.
Identities = 22/68 (32%), Positives = 36/68 (52%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ +L++G+ V+I +N
Sbjct: 114 QTVAVEFDTFYNAAWDPSNKERHIGIDVNSI------KSVNTKSWNLQNGERANVVIAFN 167
Query: 137 GSQNLIYV 144
+ N++ V
Sbjct: 168 AATNVLTV 175
>pdb|1RIN|A Chain A, X-Ray Crystal Structure Of A Pea Lectin-Trimannoside
Complex At 2.6 Angstroms Resolution
pdb|1RIN|C Chain C, X-Ray Crystal Structure Of A Pea Lectin-Trimannoside
Complex At 2.6 Angstroms Resolution
Length = 180
Score = 32.7 bits (73), Expect = 0.13, Method: Compositional matrix adjust.
Identities = 22/66 (33%), Positives = 35/66 (53%), Gaps = 9/66 (13%)
Query: 82 LAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGS 138
+AVE DTF N D H+ ID SI +S+N+ L++G+ V+I +N +
Sbjct: 116 VAVEFDTFYNAAWDPSNRDRHIGIDVNSI------KSVNTKSWKLQNGEEANVVIAFNAA 169
Query: 139 QNLIYV 144
N++ V
Sbjct: 170 TNVLTV 175
>pdb|2LTN|A Chain A, Design, Expression, And Crystallization Of Recombinant
Lectin From The Garden Pea (Pisum Sativum)
pdb|2LTN|C Chain C, Design, Expression, And Crystallization Of Recombinant
Lectin From The Garden Pea (Pisum Sativum)
pdb|1BQP|A Chain A, The Structure Of The Pea Lectin-D-Mannopyranose Complex
pdb|1BQP|C Chain C, The Structure Of The Pea Lectin-D-Mannopyranose Complex
pdb|1HKD|A Chain A, Structure Of Pea Lectin In Complex With Alpha-Methyl-D-
Glucopyranoside
pdb|1HKD|C Chain C, Structure Of Pea Lectin In Complex With Alpha-Methyl-D-
Glucopyranoside
Length = 181
Score = 32.7 bits (73), Expect = 0.13, Method: Compositional matrix adjust.
Identities = 22/68 (32%), Positives = 35/68 (51%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++G+ V+I +N
Sbjct: 114 QTVAVEFDTFYNAAWDPSNRDRHIGIDVNSI------KSVNTKSWKLQNGEEANVVIAFN 167
Query: 137 GSQNLIYV 144
+ N++ V
Sbjct: 168 AATNVLTV 175
>pdb|1OFS|A Chain A, Pea Lectin-sucrose Complex
pdb|1OFS|C Chain C, Pea Lectin-sucrose Complex
Length = 187
Score = 32.7 bits (73), Expect = 0.13, Method: Compositional matrix adjust.
Identities = 22/68 (32%), Positives = 35/68 (51%), Gaps = 9/68 (13%)
Query: 80 HQLAVELDTFKN---DFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYN 136
+AVE DTF N D H+ ID SI +S+N+ L++G+ V+I +N
Sbjct: 114 QTVAVEFDTFYNAAWDPSNRDRHIGIDVNSI------KSVNTKSWKLQNGEEANVVIAFN 167
Query: 137 GSQNLIYV 144
+ N++ V
Sbjct: 168 AATNVLTV 175
>pdb|2DUO|A Chain A, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN, CA2+-
Bound Form
pdb|2DUO|B Chain B, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN, CA2+-
Bound Form
pdb|2DUP|A Chain A, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
METAL-Free Form
pdb|2DUP|B Chain B, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
METAL-Free Form
pdb|2DUQ|A Chain A, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN-Bound Form
pdb|2DUQ|B Chain B, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN-Bound Form
pdb|2DUR|A Chain A, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
CA2+MAN2-Bound Form
pdb|2DUR|B Chain B, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
CA2+MAN2-Bound Form
pdb|2E6V|A Chain A, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN3GLCNAC-Bound Form
pdb|2E6V|B Chain B, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN3GLCNAC-Bound Form
pdb|2E6V|C Chain C, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN3GLCNAC-Bound Form
pdb|2E6V|D Chain D, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN3GLCNAC-Bound Form
pdb|2E6V|E Chain E, Crystal Structure Of Vip36 ExoplasmicLUMENAL DOMAIN,
Ca2+MAN3GLCNAC-Bound Form
Length = 253
Score = 32.7 bits (73), Expect = 0.13, Method: Compositional matrix adjust.
Identities = 28/122 (22%), Positives = 60/122 (49%), Gaps = 15/122 (12%)
Query: 78 DMHQLAVELDTFKNDFDVDGNH----VAIDTTSISQPVAVES----LNSTGVDLKSGKNI 129
+ H LA+ LDT+ ND + V ++ S+S + + L D ++ +
Sbjct: 105 NFHGLAIFLDTYPNDETTERVFPYISVMVNNGSLSYDHSKDGRWTELAGCTADFRNRDHD 164
Query: 130 TVI-IQYNGSQNLIYVNVRDTDHPPKNVIKQPINLSDI-VPSSVYVGFTAATGALAESHQ 187
T + ++Y+ + + ++ D KN K I+++ + +P+ Y G +A TG L+++H
Sbjct: 165 TFLAVRYSRGRLTVMTDLED-----KNEWKNCIDITGVRLPTGYYFGASAGTGDLSDNHD 219
Query: 188 LL 189
++
Sbjct: 220 II 221
>pdb|1GSL|A Chain A, Lectin (Fourth Isolated From (Griffonia Simplicifolia))
Complex With Y Human Blood Group Determinant
pdb|1LEC|A Chain A, Structures Of The Lectin Iv Of Griffonia Simplicifolia And
Its Complex With The Lewis B Human Blood Group
Determinant At 2.0 Angstroms Resolution
pdb|1LED|A Chain A, Structures Of The Lectin Iv Of Griffonia Simplicifolia And
Its Complex With The Lewis B Human Blood Group
Determinant At 2.0 Angstroms Resolution
Length = 243
Score = 32.3 bits (72), Expect = 0.18, Method: Compositional matrix adjust.
Identities = 32/116 (27%), Positives = 53/116 (45%), Gaps = 7/116 (6%)
Query: 82 LAVELDTFKN-DF-DVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVIIQYNGSQ 139
+AVE DT+ N D+ D H+ ID SI V+V + D T I Y+
Sbjct: 126 VAVEFDTWINKDWNDPPYPHIGIDVNSI---VSVATTRWENDDAYGSSIATAHITYDARS 182
Query: 140 NLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAATGALAESHQLLEWSLTS 195
++ V + +H ++ ++L+ ++P V +GF+A G E +L W S
Sbjct: 183 KILTV-LLSYEHGRDYILSHVVDLAKVLPQKVRIGFSAGVG-YDEVTYILSWHFFS 236
>pdb|1OU5|A Chain A, Crystal Structure Of Human Cca-Adding Enzyme
pdb|1OU5|B Chain B, Crystal Structure Of Human Cca-Adding Enzyme
Length = 448
Score = 32.0 bits (71), Expect = 0.25, Method: Compositional matrix adjust.
Identities = 26/101 (25%), Positives = 47/101 (46%), Gaps = 4/101 (3%)
Query: 59 LYVANSLRVINYMLEIVGT---DMHQLAVELDTFKNDFDVDGNHVAIDTTSISQPVAVES 115
++ + +R+IN E GT +H+ E+ T + D DG H ++ T+ Q A E
Sbjct: 106 MFQSAGIRMINNRGEKHGTITARLHEENFEITTLRIDVTTDGRHAEVEFTTDWQKDA-ER 164
Query: 116 LNSTGVDLKSGKNITVIIQYNGSQNLIYVNVRDTDHPPKNV 156
+ T + G + T+ +NG ++L VR H + +
Sbjct: 165 RDLTINSMFLGFDGTLFDYFNGYEDLKNKKVRFVGHAKQRI 205
>pdb|1FX5|A Chain A, Crystal Structure Analysis Of Ulex Europaeus Lectin I
pdb|1FX5|B Chain B, Crystal Structure Analysis Of Ulex Europaeus Lectin I
pdb|1JXN|A Chain A, Crystal Structure Of The Lectin I From Ulex Europaeus In
Complex With The Methyl Glycoside Of Alpha-l-fucose
pdb|1JXN|B Chain B, Crystal Structure Of The Lectin I From Ulex Europaeus In
Complex With The Methyl Glycoside Of Alpha-l-fucose
pdb|1JXN|C Chain C, Crystal Structure Of The Lectin I From Ulex Europaeus In
Complex With The Methyl Glycoside Of Alpha-l-fucose
pdb|1JXN|D Chain D, Crystal Structure Of The Lectin I From Ulex Europaeus In
Complex With The Methyl Glycoside Of Alpha-l-fucose
Length = 242
Score = 31.6 bits (70), Expect = 0.29, Method: Compositional matrix adjust.
Identities = 34/123 (27%), Positives = 55/123 (44%), Gaps = 14/123 (11%)
Query: 80 HQLAVELDTFK---NDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKN--ITVIIQ 134
+AVE DT N +D H+ ID V+S+N+ + + G N V I
Sbjct: 120 QTVAVEFDTIGSPVNFWDPGFPHIGIDVN------CVKSINAERWNKRYGLNNVANVEII 173
Query: 135 YNGSQNLIYVNVRDTDHPPKNVIKQPINLSDIVPSSVYVGFTAAT--GALAESHQLLEWS 192
Y S + ++ + ++L +I+P V VGF+ +T G A +H++L W
Sbjct: 174 YEASSKTLTASLTYPSDQTSISVTSIVDLKEILPEWVSVGFSGSTYIGRQA-THEVLNWY 232
Query: 193 LTS 195
TS
Sbjct: 233 FTS 235
>pdb|3A4U|A Chain A, Crystal Structure Of Mcfd2 In Complex With Carbohydrate
Recognition Domain Of Ergic-53
Length = 255
Score = 30.0 bits (66), Expect = 0.96, Method: Compositional matrix adjust.
Identities = 17/52 (32%), Positives = 29/52 (55%), Gaps = 1/52 (1%)
Query: 139 QNLIYVNVRDTDHPPKNVIKQPINLSD-IVPSSVYVGFTAATGALAESHQLL 189
QN + V + + P KN + + + I+P+ + G +AATG LA+ H +L
Sbjct: 179 QNTLTVMINNGFTPDKNDYEFCAKVENMIIPAQGHFGISAATGGLADDHDVL 230
>pdb|3LCP|A Chain A, Crystal Structure Of The Carbohydrate Recognition Domain
Of Complex With Mcfd2
pdb|3LCP|B Chain B, Crystal Structure Of The Carbohydrate Recognition Domain
Of Complex With Mcfd2
Length = 247
Score = 30.0 bits (66), Expect = 1.0, Method: Compositional matrix adjust.
Identities = 17/52 (32%), Positives = 29/52 (55%), Gaps = 1/52 (1%)
Query: 139 QNLIYVNVRDTDHPPKNVIKQPINLSD-IVPSSVYVGFTAATGALAESHQLL 189
QN + V + + P KN + + + I+P+ + G +AATG LA+ H +L
Sbjct: 179 QNTLTVMINNGFTPDKNDYEFCAKVENMIIPAQGHFGISAATGGLADDHDVL 230
>pdb|1GV9|A Chain A, P58ERGIC-53
Length = 260
Score = 28.5 bits (62), Expect = 2.5, Method: Compositional matrix adjust.
Identities = 10/24 (41%), Positives = 17/24 (70%)
Query: 166 IVPSSVYVGFTAATGALAESHQLL 189
++P+ + G +AATG LA+ H +L
Sbjct: 221 VIPTQGHFGISAATGGLADDHDVL 244
>pdb|1R1Z|A Chain A, The Crystal Structure Of The Carbohydrate Recognition
Domain Of The Glycoprotein Sorting Receptor P58ERGIC-53
Reveals A Novel Metal Binding Site And Conformational
Changes Associated With Calcium Ion Binding
pdb|1R1Z|B Chain B, The Crystal Structure Of The Carbohydrate Recognition
Domain Of The Glycoprotein Sorting Receptor P58ERGIC-53
Reveals A Novel Metal Binding Site And Conformational
Changes Associated With Calcium Ion Binding
pdb|1R1Z|C Chain C, The Crystal Structure Of The Carbohydrate Recognition
Domain Of The Glycoprotein Sorting Receptor P58ERGIC-53
Reveals A Novel Metal Binding Site And Conformational
Changes Associated With Calcium Ion Binding
pdb|1R1Z|D Chain D, The Crystal Structure Of The Carbohydrate Recognition
Domain Of The Glycoprotein Sorting Receptor P58ERGIC-53
Reveals A Novel Metal Binding Site And Conformational
Changes Associated With Calcium Ion Binding
Length = 263
Score = 28.5 bits (62), Expect = 2.7, Method: Compositional matrix adjust.
Identities = 10/24 (41%), Positives = 17/24 (70%)
Query: 166 IVPSSVYVGFTAATGALAESHQLL 189
++P+ + G +AATG LA+ H +L
Sbjct: 224 VIPTQGHFGISAATGGLADDHDVL 247
>pdb|3HSB|A Chain A, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3HSB|B Chain B, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3HSB|C Chain C, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3HSB|D Chain D, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3HSB|E Chain E, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3HSB|F Chain F, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
pdb|3AHU|A Chain A, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer.
pdb|3AHU|B Chain B, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer.
pdb|3AHU|C Chain C, Crystal Structure Of Ymah (Hfq) From Bacillus Subtilis In
Complex With An Rna Aptamer
Length = 78
Score = 27.7 bits (60), Expect = 4.3, Method: Compositional matrix adjust.
Identities = 14/35 (40%), Positives = 19/35 (54%)
Query: 122 DLKSGKNITVIIQYNGSQNLIYVNVRDTDHPPKNV 156
+K N TV+++ G Q LIY + T P KNV
Sbjct: 39 QVKGFDNFTVLLESEGKQQLIYKHAISTFAPQKNV 73
>pdb|3IGS|A Chain A, Structure Of The Salmonella Enterica
N-Acetylmannosamine-6-Phosphate 2-Epimerase
pdb|3IGS|B Chain B, Structure Of The Salmonella Enterica
N-Acetylmannosamine-6-Phosphate 2-Epimerase
Length = 232
Score = 27.3 bits (59), Expect = 6.3, Method: Compositional matrix adjust.
Identities = 15/50 (30%), Positives = 27/50 (54%), Gaps = 4/50 (8%)
Query: 71 MLEIVGTDMHQLAVELDTFKNDFDV----DGNHVAIDTTSISQPVAVESL 116
++ I+ D+ + V + F +D D +A+D T+ +PVAVE+L
Sbjct: 72 IIGIIKRDLDESPVRITPFLDDVDALAQAGAAIIAVDGTARQRPVAVEAL 121
>pdb|1FWX|A Chain A, Crystal Structure Of Nitrous Oxide Reductase From P.
Denitrificans
pdb|1FWX|B Chain B, Crystal Structure Of Nitrous Oxide Reductase From P.
Denitrificans
pdb|1FWX|C Chain C, Crystal Structure Of Nitrous Oxide Reductase From P.
Denitrificans
pdb|1FWX|D Chain D, Crystal Structure Of Nitrous Oxide Reductase From P.
Denitrificans
Length = 595
Score = 26.6 bits (57), Expect = 9.6, Method: Compositional matrix adjust.
Identities = 14/51 (27%), Positives = 27/51 (52%), Gaps = 5/51 (9%)
Query: 83 AVELDTFKNDFDVDGNHVAIDTTSISQPVAVESLNSTGVDLKSGKNITVII 133
V++D + + DGN V + +S++ ++ES +K G +TVI+
Sbjct: 482 GVDIDNWTEEVIRDGNKVRVYMSSVAPSFSIESFT-----VKEGDEVTVIV 527
Database: pdbaa
Posted date: Mar 3, 2013 10:34 PM
Number of letters in database: 14,973,337
Number of sequences in database: 62,578
Lambda K H
0.319 0.134 0.386
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 5,625,793
Number of Sequences: 62578
Number of extensions: 221082
Number of successful extensions: 612
Number of sequences better than 100.0: 94
Number of HSP's better than 100.0 without gapping: 71
Number of HSP's successfully gapped in prelim test: 23
Number of HSP's that attempted gapping in prelim test: 514
Number of HSP's gapped (non-prelim): 94
length of query: 202
length of database: 14,973,337
effective HSP length: 94
effective length of query: 108
effective length of database: 9,091,005
effective search space: 981828540
effective search space used: 981828540
T: 11
A: 40
X1: 16 ( 7.4 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.8 bits)
S2: 49 (23.5 bits)