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= 028588
(207 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|3LHL|A Chain A, Crystal Structure Of A Putative Agmatinase From
Clostridium Difficile
Length = 287
Score = 112 bits (280), Expect = 2e-25, Method: Compositional matrix adjust.
Identities = 67/207 (32%), Positives = 110/207 (53%), Gaps = 11/207 (5%)
Query: 3 VITESVKLVMEEDPLHPLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGN 62
+ E+ K+V D P +GG+H ++ P +AV EK + V+H DAH D+ + + +
Sbjct: 77 IYQETYKIV--RDSKVPFXIGGEHLVTLPAFKAVHEKYN-DIYVIHFDAHTDLREEYNNS 133
Query: 63 KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSRDRQFLENLK 122
K SHA+ RI + ++ Q GIRS TKE +F E+ EN+
Sbjct: 134 KNSHATVIKRIWDIVGDNKIFQFGIRSGTKEEF----KFATEEKHTYXEIGGIDTFENIV 189
Query: 123 LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFR---DVLNILHNLQADVVAADVVEF 179
K +Y+++D+D LD + PG EPGG+++R ++ I+ N ++V D+VE
Sbjct: 190 NXLNGKNIYLTIDLDVLDASVFPGTGTPEPGGVNYREFQEIFKIIKNSNINIVGCDIVEL 249
Query: 180 NPQRDTVDGMTAMVAAKLVRELTAKIS 206
+P DT G++ ++A K++REL IS
Sbjct: 250 SPDYDTT-GVSTVIACKILRELCLIIS 275
>pdb|3NIO|A Chain A, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
pdb|3NIO|B Chain B, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
pdb|3NIO|C Chain C, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
pdb|3NIO|D Chain D, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
pdb|3NIO|E Chain E, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
pdb|3NIO|F Chain F, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinobutyrase
Length = 319
Score = 103 bits (257), Expect = 6e-23, Method: Compositional matrix adjust.
Identities = 68/192 (35%), Positives = 105/192 (54%), Gaps = 13/192 (6%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFARIMEGGY 78
PL LGGDH+I+ P++RA+ K G V ++H+DAH D+ D G +H ++F R +E
Sbjct: 122 PLTLGGDHTITLPILRAIX-KXHGXVGLVHVDAHADVNDHMFGEXIAHGTTFRRAVEEDL 180
Query: 79 --ARRLLQVGIRS--ITKE----GREQGKRFGVEQYEMRTFSRDRQFLENLKLGEGVKGV 130
R++Q+G+R+ T E R QG F V Q E + ++ G V
Sbjct: 181 LDCDRVVQIGLRAQGYTAEDFNWSRXQG--FRVVQAEECWHXSLEPLMAEVREXVGGGPV 238
Query: 131 YISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQA-DVVAADVVEFNPQRDTVDGM 189
Y+S D+D +DPA+APG E GGL+ + I+ Q D++ D+VE +P DT G
Sbjct: 239 YLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTT-GN 297
Query: 190 TAMVAAKLVREL 201
T+++ A L+ E+
Sbjct: 298 TSLLGANLLYEM 309
>pdb|3PZL|A Chain A, The Crystal Structure Of Agmatine Ureohydrolase Of
Thermoplasma Volcanium
pdb|3PZL|B Chain B, The Crystal Structure Of Agmatine Ureohydrolase Of
Thermoplasma Volcanium
pdb|3PZL|C Chain C, The Crystal Structure Of Agmatine Ureohydrolase Of
Thermoplasma Volcanium
Length = 313
Score = 102 bits (253), Expect = 2e-22, Method: Compositional matrix adjust.
Identities = 67/192 (34%), Positives = 106/192 (55%), Gaps = 12/192 (6%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFARIMEGGY 78
P+ LGG+HSI+ +RA+ + VD++ +DAH D ++ GNKY+HA R ++
Sbjct: 117 PIXLGGEHSITVGAVRALPKD----VDLVIVDAHSDFRSSYXGNKYNHACVTRRALDLLG 172
Query: 79 ARRLLQVGIRSITKEGREQ---GKRFGVEQYEMRTFSRDRQFLENLKLGEGVKGVYISVD 135
R+ +GIRS+++E E K + ++++ D+ E + + VYISVD
Sbjct: 173 EGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEE---VDRKSRRVYISVD 229
Query: 136 VDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQADVVAADVVEFNPQRDTVDGMTAMVAA 195
D +DPA+AP V EP GL+ DV ++ L V D+VEF+P D +G T+ +AA
Sbjct: 230 XDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYD--NGNTSXLAA 287
Query: 196 KLVRELTAKISK 207
KL++ A K
Sbjct: 288 KLLQVFIASREK 299
>pdb|3NIP|A Chain A, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIP|B Chain B, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIP|C Chain C, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIP|D Chain D, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIP|E Chain E, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIP|F Chain F, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase Complexed With 1,6-Diaminohexane
pdb|3NIQ|A Chain A, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase
pdb|3NIQ|B Chain B, Crystal Structure Of Pseudomonas Aeruginosa
Guanidinopropionase
Length = 326
Score = 99.4 bits (246), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 70/199 (35%), Positives = 103/199 (51%), Gaps = 15/199 (7%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEG-NKYSHASSFARIMEGG 77
PL +GGDH ++ P+ RA+ + P+ ++H DAH D D + G N Y+H + F R +E G
Sbjct: 119 PLSVGGDHLVTLPIFRALGRER--PLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEG 176
Query: 78 Y--ARRLLQVGIRSITKE------GREQGKRFGVEQYEMRTFSRDRQFLENLKLGEGVKG 129
R +Q+GIR RE G R + E + E ++ G
Sbjct: 177 LLDPLRTVQIGIRGSVYSPDDDAFARECGIRV-IHMEEFVELGVEATLAEARRV-VGAGP 234
Query: 130 VYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQA-DVVAADVVEFNPQRDTVDG 188
Y+S DVD LDPAFAPG E GG++ ++ L+ D+V ADVVE +P D V G
Sbjct: 235 TYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFD-VGG 293
Query: 189 MTAMVAAKLVRELTAKISK 207
TA+V A ++ EL +++
Sbjct: 294 ATALVGATMMFELLCLLAE 312
>pdb|4DZ4|A Chain A, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
pdb|4DZ4|B Chain B, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
pdb|4DZ4|C Chain C, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
pdb|4DZ4|D Chain D, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
pdb|4DZ4|E Chain E, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
pdb|4DZ4|F Chain F, X-Ray Crystal Structure Of A Hypothetical Agmatinase From
Burkholderia Thailandensis
Length = 324
Score = 96.7 bits (239), Expect = 9e-21, Method: Compositional matrix adjust.
Identities = 64/204 (31%), Positives = 105/204 (51%), Gaps = 13/204 (6%)
Query: 3 VITESVKLVMEEDPLHPLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGN 62
I E + +++ D L LGGDH I++P++ A ++K G P+ ++H DAH D + +
Sbjct: 117 AIVEHARTILQSD-ARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPD 175
Query: 63 KYSHASSFARIMEGGY--ARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSRD--RQFL 118
+H + F + ++ G + +QVGIR+ + G+ + R L
Sbjct: 176 SLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDD------YLGINVLDAAWVHEHGARATL 229
Query: 119 ENLKLGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQA-DVVAADVV 177
E ++ G + Y++ D+DCLDPAFAPG GGLS L I+ L +++ ADVV
Sbjct: 230 ERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVV 289
Query: 178 EFNPQRDTVDGMTAMVAAKLVREL 201
E P D + +TA+ AA + +L
Sbjct: 290 EVAPAYDQSE-ITAIAAAHVACDL 312
>pdb|1GQ6|A Chain A, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ6|B Chain B, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ6|C Chain C, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|A Chain A, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|B Chain B, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|C Chain C, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|D Chain D, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|E Chain E, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
pdb|1GQ7|F Chain F, Proclavaminate Amidino Hydrolase From Streptomyces
Clavuligerus
Length = 313
Score = 91.7 bits (226), Expect = 2e-19, Method: Compositional matrix adjust.
Identities = 67/197 (34%), Positives = 107/197 (54%), Gaps = 13/197 (6%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFARIMEGGY- 78
L++GGDHS++ +RAV+E+ G P+ V+HLDAH D AF G +Y H + F ++
Sbjct: 115 LMIGGDHSLTVAALRAVAEQHG-PLAVVHLDAHSDTNPAFYGGRYHHGTPFRHGIDEKLI 173
Query: 79 -ARRLLQVGIR--SITKEGREQGKRFGVEQYEMRTFSR----DRQFLENLKLGEGVKGVY 131
++Q+GIR + + + + GV F L K+G+ + VY
Sbjct: 174 DPAAMVQIGIRGHNPKPDSLDYARGHGVRVVTADEFGELGVGGTADLIREKVGQ--RPVY 231
Query: 132 ISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNL-QADVVAADVVEFNPQRDTVDGMT 190
+SVD+D +DPAFAPG PGGL R+VL +L + V DV+E +P D G+T
Sbjct: 232 VSVDIDVVDPAFAPGTGTPAPGGLLSREVLALLRCVGDLKPVGFDVMEVSPLYDH-GGIT 290
Query: 191 AMVAAKLVRELTAKISK 207
+++A ++ EL + ++
Sbjct: 291 SILATEIGAELLYQYAR 307
>pdb|1WOG|A Chain A, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOG|B Chain B, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOG|C Chain C, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOG|D Chain D, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOG|E Chain E, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOG|F Chain F, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|A Chain A, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|B Chain B, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|C Chain C, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|D Chain D, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|E Chain E, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOH|F Chain F, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|A Chain A, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|B Chain B, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|C Chain C, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|D Chain D, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|E Chain E, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
pdb|1WOI|F Chain F, Crystal Structure Of Agmatinase Reveals Structural
Conservation And Inhibition Mechanism Of The
Ureohydrolase Superfamily
Length = 305
Score = 82.8 bits (203), Expect = 1e-16, Method: Compositional matrix adjust.
Identities = 65/193 (33%), Positives = 93/193 (48%), Gaps = 12/193 (6%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFARIMEG-G 77
P+ LGGDHS+S+P++RA ++ + V+ LDAH D D K+S++S F R E
Sbjct: 114 PVFLGGDHSVSYPLLRAFADVPD--LHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALP 171
Query: 78 YARRLLQVGIRSIT--KEGREQGKRFGVEQYEMRTFSRDRQ-FLENLKLGEGVKGVYISV 134
+ VG+R + E + G M + D L L G+ V Y SV
Sbjct: 172 NLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNV---YFSV 228
Query: 135 DVDCLDPAFAPGVSHIEPGGLSFRDVLNIL--HNLQADVVAADVVEFNPQRDTVDGMTAM 192
DVD DPA PG S EP GL++ + IL VV D+VE P D G + +
Sbjct: 229 DVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPT-GRSEL 287
Query: 193 VAAKLVRELTAKI 205
+ A+LV E ++
Sbjct: 288 LMARLVMETLCEV 300
>pdb|3M1R|A Chain A, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
pdb|3M1R|B Chain B, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
pdb|3M1R|C Chain C, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
pdb|3M1R|D Chain D, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
pdb|3M1R|E Chain E, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
pdb|3M1R|F Chain F, The Crystal Structure Of Formimidoylglutamase From
Bacillus Subtilis Subsp. Subtilis Str. 168
Length = 322
Score = 73.9 bits (180), Expect = 6e-14, Method: Compositional matrix adjust.
Identities = 58/197 (29%), Positives = 99/197 (50%), Gaps = 20/197 (10%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFAR-----I 73
PL+LGGD+SIS+ I+A+++ G V+ DAH D+ + +G ++ + F R I
Sbjct: 123 PLILGGDNSISYSTIKAIAQT-KGTTAVIQFDAHHDVRNTEDGGP-TNGTPFRRLLDEEI 180
Query: 74 MEGGYARRLLQVGIRSITKEGREQG--KRFGVEQYEMRTFSRDRQFLENLK-----LGEG 126
+EG + L+Q+GIR + + K+ V + R++ + +K + +
Sbjct: 181 IEG---QHLIQLGIREFSNSQAYEAYAKKHNVNIHTXDXI-REKGLIPTIKEILPVVQDK 236
Query: 127 VKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNL--QADVVAADVVEFNPQRD 184
++ISVD D LD + APG I PGGL ++L + + Q +V ++VE +P D
Sbjct: 237 TDFIFISVDXDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLD 296
Query: 185 TVDGMTAMVAAKLVREL 201
D + A L+ L
Sbjct: 297 FRDXTSRAAAHVLLHAL 313
>pdb|1CEV|A Chain A, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|1CEV|B Chain B, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|1CEV|C Chain C, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|1CEV|D Chain D, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|1CEV|E Chain E, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|1CEV|F Chain F, Arginase From Bacillus Caldovelox, Native Structure At Ph
5.6
pdb|2CEV|A Chain A, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|2CEV|B Chain B, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|2CEV|C Chain C, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|2CEV|D Chain D, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|2CEV|E Chain E, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|2CEV|F Chain F, Arginase From Bacillus Caldevelox, Native Structure At Ph
8.5
pdb|3CEV|A Chain A, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|3CEV|B Chain B, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|3CEV|C Chain C, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|3CEV|D Chain D, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|3CEV|E Chain E, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|3CEV|F Chain F, Arginase From Bacillus Caldevelox, Complexed With
L-arginine
pdb|4CEV|A Chain A, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|4CEV|B Chain B, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|4CEV|C Chain C, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|4CEV|D Chain D, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|4CEV|E Chain E, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|4CEV|F Chain F, Arginase From Bacillus Caldevelox, L-Ornithine Complex
pdb|5CEV|A Chain A, Arginase From Bacillus Caldevelox, L-Lysine Complex
pdb|5CEV|B Chain B, Arginase From Bacillus Caldevelox, L-Lysine Complex
pdb|5CEV|C Chain C, Arginase From Bacillus Caldevelox, L-Lysine Complex
pdb|5CEV|D Chain D, Arginase From Bacillus Caldevelox, L-Lysine Complex
pdb|5CEV|E Chain E, Arginase From Bacillus Caldevelox, L-Lysine Complex
pdb|5CEV|F Chain F, Arginase From Bacillus Caldevelox, L-Lysine Complex
Length = 299
Score = 69.7 bits (169), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 67/208 (32%), Positives = 104/208 (50%), Gaps = 31/208 (14%)
Query: 19 PLVLGGDHSISFPVIRAVS---EKLGGPVDVLHLDAHPDIYDA-------FEGNKYSHAS 68
PLVLGGDHSI+ + V+ E+LG V+ DAH D+ A G + +
Sbjct: 92 PLVLGGDHSIAIGTLAGVAKHYERLG----VIWYDAHGDVNTAETSPSGNIHGMPLAASL 147
Query: 69 SF---ARIMEGGYARRL-----LQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQF 117
F A GGY+ ++ + +G+RS+ + ++ + G++ Y M R R
Sbjct: 148 GFGHPALTQIGGYSPKIKPEHVVLIGVRSLDEGEKKFIREKGIKIYTMHEVDRLGMTRVM 207
Query: 118 LENLK-LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRD---VLNILHNLQADVVA 173
E + L E GV++S+D+D LDP+ APGV GGL++R+ + +L Q + +
Sbjct: 208 EETIAYLKERTDGVHLSLDLDGLDPSDAPGVGTPVIGGLTYRESHLAMEMLAEAQI-ITS 266
Query: 174 ADVVEFNPQRDTVDGMTAMVAAKLVREL 201
A+ VE NP D + TA VA L+ L
Sbjct: 267 AEFVEVNPILDERN-KTASVAVALMGSL 293
>pdb|2EIV|A Chain A, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|C Chain C, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|D Chain D, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|E Chain E, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|F Chain F, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|G Chain G, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|H Chain H, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|I Chain I, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|J Chain J, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|K Chain K, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|L Chain L, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EIV|M Chain M, Crystal Structure Of The Arginase From Thermus
Thermophilus
Length = 291
Score = 65.9 bits (159), Expect = 2e-11, Method: Compositional matrix adjust.
Identities = 60/185 (32%), Positives = 91/185 (49%), Gaps = 24/185 (12%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYS--HASSFARIMEG 76
P+VLGGDHS+S + + G V V+ +DAH D ++ E + H A +
Sbjct: 90 PIVLGGDHSLSMGSVAGAAR--GRRVGVVWVDAHAD-FNTPETSPSGNVHGMPLAVLSGL 146
Query: 77 GYARR-----------LLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFLENLK 122
G+ R ++ VG+RS+ + K GV Y M R R E LK
Sbjct: 147 GHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLK 206
Query: 123 LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD---VVAADVVEF 179
+G+ +++S+D D LDP APGV PGGL++R+ ++L + A+ V + D+VE
Sbjct: 207 HLQGLP-LHVSLDADVLDPTLAPGVGTPVPGGLTYREA-HLLMEILAESGRVQSLDLVEV 264
Query: 180 NPQRD 184
NP D
Sbjct: 265 NPILD 269
>pdb|2EF4|A Chain A, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|A Chain A, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|B Chain B, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|D Chain D, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|E Chain E, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|F Chain F, Crystal Structure Of The Arginase From Thermus
Thermophilus
pdb|2EF5|G Chain G, Crystal Structure Of The Arginase From Thermus
Thermophilus
Length = 290
Score = 65.9 bits (159), Expect = 2e-11, Method: Compositional matrix adjust.
Identities = 60/185 (32%), Positives = 91/185 (49%), Gaps = 24/185 (12%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYS--HASSFARIMEG 76
P+VLGGDHS+S + + G V V+ +DAH D ++ E + H A +
Sbjct: 89 PIVLGGDHSLSMGSVAGAAR--GRRVGVVWVDAHAD-FNTPETSPSGNVHGMPLAVLSGL 145
Query: 77 GYARR-----------LLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFLENLK 122
G+ R ++ VG+RS+ + K GV Y M R R E LK
Sbjct: 146 GHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLK 205
Query: 123 LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD---VVAADVVEF 179
+G+ +++S+D D LDP APGV PGGL++R+ ++L + A+ V + D+VE
Sbjct: 206 HLQGLP-LHVSLDADVLDPTLAPGVGTPVPGGLTYREA-HLLMEILAESGRVQSLDLVEV 263
Query: 180 NPQRD 184
NP D
Sbjct: 264 NPILD 268
>pdb|3MMR|A Chain A, Structure Of Plasmodium Falciparum Arginase In Complex
With Abh
pdb|3SL0|A Chain A, Crystal Structure Of P. Falciparum Arginase Complexed With
2-Amino-6- Borono-2-(Difluoromethyl)hexanoic Acid
pdb|3SL1|A Chain A, Crystal Structure Of P. Falciparum Arginase Complexed With
2-Amino-6- Borono-2-Methylhexanoic Acid
Length = 413
Score = 60.5 bits (145), Expect = 7e-10, Method: Compositional matrix adjust.
Identities = 58/222 (26%), Positives = 98/222 (44%), Gaps = 39/222 (17%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIY-------DAFEGNKYSHASSFAR 72
L +GGDH ++F I + S ++ + V+ +DAH DI + G +H +
Sbjct: 189 LNIGGDHGVAFSSILS-SLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFK 247
Query: 73 ----IMEGGYARRLLQ------VGIRSITKEGREQGKRFGVEQYEMRTFSRDRQF----- 117
E L+ +GIR I + K+ + Y + ++ +
Sbjct: 248 KKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICT 307
Query: 118 -LENLKLGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD---VVA 173
LE + ++IS+D+D +D FAPG + GGL++R++ N+L + A+ VV+
Sbjct: 308 ALEKIDPNSNCP-IHISLDIDSVDNVFAPGTGTVAKGGLNYREI-NLLMKILAETKRVVS 365
Query: 174 ADVVEFNPQRDTVDGM----------TAMVAAKLVRELTAKI 205
D+VE+NP D VD A KL EL A++
Sbjct: 366 MDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARV 407
>pdb|3E6V|A Chain A, X-Ray Structure Of Human Arginase I-D183n Mutant: The
Complex With Abh
pdb|3E6V|B Chain B, X-Ray Structure Of Human Arginase I-D183n Mutant: The
Complex With Abh
Length = 322
Score = 55.5 bits (132), Expect = 2e-08, Method: Compositional matrix adjust.
Identities = 52/191 (27%), Positives = 81/191 (42%), Gaps = 32/191 (16%)
Query: 20 LVLGGDHSISFPVIRA---VSEKLGGPVDVLHLDAHPDIYDAF---EGNKYSHASSF--- 70
LVLGGDHS++ I V LG V+ +DAH DI GN + SF
Sbjct: 95 LVLGGDHSLAIGSISGHARVHPDLG----VIWVDAHTDINTPLTTTSGNLHGQPVSFLLK 150
Query: 71 ------------ARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DR 115
+ + A+ ++ +G+R + K G++ + M R +
Sbjct: 151 ELKGKIPDVPGFSWVTPCISAKDIVYIGLRDVNPGEHYILKTLGIKYFSMTEVDRLGIGK 210
Query: 116 QFLENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--V 171
E L LG + +++S DVD LDP+F P GGL++R+ L I + +
Sbjct: 211 VMEETLSYLLGRKKRPIHLSFDVDGLDPSFTPATGTPVVGGLTYREGLYITEEIYKTGLL 270
Query: 172 VAADVVEFNPQ 182
D++E NP
Sbjct: 271 SGLDIMEVNPS 281
>pdb|4ITY|A Chain A, Crystal Structure Of Leishmania Mexicana Arginase
pdb|4IU0|A Chain A, Crystal Structure Of Leishmania Mexicana Arginase In
Complex With Inhibitor Abh
pdb|4IU1|A Chain A, Crystal Structure Of Leishmania Mexicana Arginase In
Complex With Inhibitor Nor-noha
pdb|4IU4|A Chain A, Crystal Structure Of Leishmania Mexicana Arginase In
Complex With Inhibitor Bec
pdb|4IU5|A Chain A, Crystal Structure Of Leishmania Mexicana Arginase In
Complex With Catalytic Product L-ornithine
Length = 330
Score = 55.5 bits (132), Expect = 2e-08, Method: Compositional matrix adjust.
Identities = 53/201 (26%), Positives = 88/201 (43%), Gaps = 25/201 (12%)
Query: 4 ITESVKLVMEEDPLHPLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYD---AFE 60
I + V+ V E+ PL +GGDHSI+ + V + V+ +DAH DI
Sbjct: 94 IYKCVRRVAEQGRF-PLTIGGDHSIALGTVAGVLS-VHPDAGVIWVDAHADINTMSGTVS 151
Query: 61 GNKYSHASS-------------FARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYE 107
GN + S F+ + + ++ +G+R++ E ++ + +
Sbjct: 152 GNLHGCPLSILLGLDRENIPECFSWVPQVLKPNKIAYIGLRAVDDEEKKILHDLNIAAFS 211
Query: 108 MRTFSR---DRQFLENLKL--GEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLN 162
M R D+ ++ +G + V +S DVD +DP + P GGLSFR+ L
Sbjct: 212 MHHVDRYGIDKVVSMAIEAVSPKGTEPVMVSYDVDTIDPLYVPATGTPVRGGLSFREALF 271
Query: 163 ILHNLQ--ADVVAADVVEFNP 181
+ + +VA DVVE NP
Sbjct: 272 LCERIAECGRLVALDVVECNP 292
>pdb|3E6K|A Chain A, X-Ray Structure Of Human Arginase I: The Mutant D183a In
Complex With Abh
pdb|3E6K|B Chain B, X-Ray Structure Of Human Arginase I: The Mutant D183a In
Complex With Abh
Length = 322
Score = 55.5 bits (132), Expect = 2e-08, Method: Compositional matrix adjust.
Identities = 52/191 (27%), Positives = 81/191 (42%), Gaps = 32/191 (16%)
Query: 20 LVLGGDHSISFPVIRA---VSEKLGGPVDVLHLDAHPDIYDAF---EGNKYSHASSF--- 70
LVLGGDHS++ I V LG V+ +DAH DI GN + SF
Sbjct: 95 LVLGGDHSLAIGSISGHARVHPDLG----VIWVDAHTDINTPLTTTSGNLHGQPVSFLLK 150
Query: 71 ------------ARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DR 115
+ + A+ ++ +G+R + K G++ + M R +
Sbjct: 151 ELKGKIPDVPGFSWVTPCISAKDIVYIGLRDVAPGEHYILKTLGIKYFSMTEVDRLGIGK 210
Query: 116 QFLENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--V 171
E L LG + +++S DVD LDP+F P GGL++R+ L I + +
Sbjct: 211 VMEETLSYLLGRKKRPIHLSFDVDGLDPSFTPATGTPVVGGLTYREGLYITEEIYKTGLL 270
Query: 172 VAADVVEFNPQ 182
D++E NP
Sbjct: 271 SGLDIMEVNPS 281
>pdb|1PQ3|A Chain A, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
pdb|1PQ3|B Chain B, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
pdb|1PQ3|C Chain C, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
pdb|1PQ3|D Chain D, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
pdb|1PQ3|E Chain E, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
pdb|1PQ3|F Chain F, Human Arginase Ii: Crystal Structure And Physiological
Role In Male And Female Sexual Arousal
Length = 306
Score = 55.1 bits (131), Expect = 3e-08, Method: Compositional matrix adjust.
Identities = 50/194 (25%), Positives = 85/194 (43%), Gaps = 32/194 (16%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGNKYSHASSF------ 70
+ LGGDHS++ I + + V+ +DAH DI GN + SF
Sbjct: 91 VTLGGDHSLAIGTISGHARHCPD-LCVVWVDAHADINTPLTTSSGNLHGQPVSFLLRELQ 149
Query: 71 ---------ARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR-------D 114
+ I + ++ +G+R + K + ++ + MR R +
Sbjct: 150 DKVPQLPGFSWIKPCISSASIVYIGLRDVDPPEHFILKNYDIQYFSMRDIDRLGIQKVME 209
Query: 115 RQFLENLKLGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNI---LHNLQADV 171
R F +L +G+ + +++S D+D DP AP GGL++R+ + I +HN +
Sbjct: 210 RTF--DLLIGKRQRPIHLSFDIDAFDPTLAPATGTPVVGGLTYREGMYIAEEIHN-TGLL 266
Query: 172 VAADVVEFNPQRDT 185
A D+VE NPQ T
Sbjct: 267 SALDLVEVNPQLAT 280
>pdb|1WVA|A Chain A, Crystal Structure Of Human Arginase I From Twinned Crystal
pdb|1WVA|B Chain B, Crystal Structure Of Human Arginase I From Twinned Crystal
pdb|2AEB|A Chain A, Crystal Structure Of Human Arginase I At 1.29 A Resolution
And Exploration Of Inhibition In Immune Response.
pdb|2AEB|B Chain B, Crystal Structure Of Human Arginase I At 1.29 A Resolution
And Exploration Of Inhibition In Immune Response.
pdb|2PHA|A Chain A, Crystal Structure Of Native, Unliganded Human Arginase At
1.90 Resolution
pdb|2PHA|B Chain B, Crystal Structure Of Native, Unliganded Human Arginase At
1.90 Resolution
pdb|2PHO|A Chain A, Crystal Structure Of Human Arginase I Complexed With
Thiosemicarbazide At 1.95 Resolution
pdb|2PHO|B Chain B, Crystal Structure Of Human Arginase I Complexed With
Thiosemicarbazide At 1.95 Resolution
pdb|2PLL|A Chain A, Crystal Structure Of Perdeuterated Human Arginase I
pdb|2PLL|B Chain B, Crystal Structure Of Perdeuterated Human Arginase I
pdb|2ZAV|A Chain A, Arginase I (homo Sapiens): Native And Unliganded Structure
At 1.70 A Resolution
pdb|2ZAV|B Chain B, Arginase I (homo Sapiens): Native And Unliganded Structure
At 1.70 A Resolution
pdb|3DJ8|A Chain A, Synthesis Of (2s)-2-Amino-7,8-Epoxyoctanoic Acid And
Structure Of Its Metal-Bridging Complex With Human
Arginase I
pdb|3DJ8|B Chain B, Synthesis Of (2s)-2-Amino-7,8-Epoxyoctanoic Acid And
Structure Of Its Metal-Bridging Complex With Human
Arginase I
pdb|3F80|A Chain A, (S)-2-Amino-6-Nitrohexanoic Acid Binds To Human Arginase I
Through Multiple Nitro-Metal Coordination Interactions
In The Binuclear Manganese Cluster. Resolution 1.60 A.
pdb|3F80|B Chain B, (S)-2-Amino-6-Nitrohexanoic Acid Binds To Human Arginase I
Through Multiple Nitro-Metal Coordination Interactions
In The Binuclear Manganese Cluster. Resolution 1.60 A.
pdb|3KV2|A Chain A, High Resolution Structure Of Human Arginase I In Complex
With The Strong Inhibitor
N(Omega)-Hydroxy-Nor-L-Arginine (Nor-Noha)
pdb|3KV2|B Chain B, High Resolution Structure Of Human Arginase I In Complex
With The Strong Inhibitor
N(Omega)-Hydroxy-Nor-L-Arginine (Nor-Noha)
pdb|3GMZ|A Chain A, Crystal Of Human Arginase In Complex With L-Ornithine.
Resolution 1.43 A.
pdb|3GMZ|B Chain B, Crystal Of Human Arginase In Complex With L-Ornithine.
Resolution 1.43 A.
pdb|3GN0|A Chain A, Crystal Structure Of Human Arginase I In Complex With
Difluoromethylornithine (Dfmo)
pdb|3GN0|B Chain B, Crystal Structure Of Human Arginase I In Complex With
Difluoromethylornithine (Dfmo)
pdb|3LP4|A Chain A, Crystal Structure Of Human Arginase I In Complex With
L-Lysi Resolution.
pdb|3LP4|B Chain B, Crystal Structure Of Human Arginase I In Complex With
L-Lysi Resolution.
pdb|3LP7|A Chain A, Crystal Structure Of Human Arginase I In Complex With
Inhibi N(Omega)-Hydroxy-L-Arginine (Noha), 2.04a
Resolution
pdb|3LP7|B Chain B, Crystal Structure Of Human Arginase I In Complex With
Inhibi N(Omega)-Hydroxy-L-Arginine (Noha), 2.04a
Resolution
pdb|3MFV|A Chain A, Crystal Structure Of Human Arginase I In Complex With 2-
Aminohomohistidine
pdb|3MFV|B Chain B, Crystal Structure Of Human Arginase I In Complex With 2-
Aminohomohistidine
pdb|3MFW|A Chain A, Crystal Structure Of Human Arginase I In Complex With L-2-
Aminohistidine And Sulphate
pdb|3MFW|B Chain B, Crystal Structure Of Human Arginase I In Complex With L-2-
Aminohistidine And Sulphate
pdb|3MJL|A Chain A, Crystal Structure Of Human Arginase I In Complex With 2-
Aminoimidazole. Resolution 1.90 A.
pdb|3MJL|B Chain B, Crystal Structure Of Human Arginase I In Complex With 2-
Aminoimidazole. Resolution 1.90 A.
pdb|3SJT|A Chain A, Crystal Structure Of Human Arginase I In Complex With The
Inhibitor Me-Abh, Resolution 1.60 A, Twinned Structure
pdb|3SJT|B Chain B, Crystal Structure Of Human Arginase I In Complex With The
Inhibitor Me-Abh, Resolution 1.60 A, Twinned Structure
pdb|3SKK|A Chain A, Crystal Structure Of Human Arginase I In Complex With The
Inhibitor Fabh, Resolution 1.70 A, Twinned Structure
pdb|3SKK|B Chain B, Crystal Structure Of Human Arginase I In Complex With The
Inhibitor Fabh, Resolution 1.70 A, Twinned Structure
pdb|3TF3|A Chain A, Crystal Structure Of Metal-Free Human Arginase I
pdb|3TF3|B Chain B, Crystal Structure Of Metal-Free Human Arginase I
pdb|3TH7|A Chain A, Crystal Structure Of Unliganded Co2+2-Hai (Ph 7.0)
pdb|3TH7|B Chain B, Crystal Structure Of Unliganded Co2+2-Hai (Ph 7.0)
pdb|3THE|A Chain A, Crystal Structure Of Co2+2-Hai (Ph 8.5)
pdb|3THE|B Chain B, Crystal Structure Of Co2+2-Hai (Ph 8.5)
pdb|3THH|A Chain A, Crystal Structure Of The Co2+2-Hai-Abh Complex
pdb|3THH|B Chain B, Crystal Structure Of The Co2+2-Hai-Abh Complex
pdb|3THJ|A Chain A, Crystal Structure Of The Co2+2-Hai-L-Orn Complex
pdb|3THJ|B Chain B, Crystal Structure Of The Co2+2-Hai-L-Orn Complex
pdb|4FCI|A Chain A, Crystal Structure Of The Mn2+2-human Arginase I-agpa
Complex
pdb|4FCI|B Chain B, Crystal Structure Of The Mn2+2-human Arginase I-agpa
Complex
pdb|4FCK|A Chain A, Crystal Structure Of The Co2+2-human Arginase I-agpa
Complex
pdb|4FCK|B Chain B, Crystal Structure Of The Co2+2-human Arginase I-agpa
Complex
pdb|4GSM|A Chain A, Crystal Structure Of Ni2+2-Human Arginase I
pdb|4GSM|B Chain B, Crystal Structure Of Ni2+2-Human Arginase I
pdb|4GSV|A Chain A, Crystal Structure Of The Ni2+2-Human Arginase I-Abh
Complex
pdb|4GSV|B Chain B, Crystal Structure Of The Ni2+2-Human Arginase I-Abh
Complex
pdb|4GSZ|A Chain A, Crystal Structure Of The Zn2+5-Human Arginase I-Abh
Complex
pdb|4GSZ|B Chain B, Crystal Structure Of The Zn2+5-Human Arginase I-Abh
Complex
pdb|4GWC|A Chain A, Crystal Structure Of Mn2+2,Zn2+-Human Arginase I
pdb|4GWC|B Chain B, Crystal Structure Of Mn2+2,Zn2+-Human Arginase I
pdb|4GWD|A Chain A, Crystal Structure Of The Mn2+2,Zn2+-Human Arginase I-Abh
Complex
pdb|4GWD|B Chain B, Crystal Structure Of The Mn2+2,Zn2+-Human Arginase I-Abh
Complex
Length = 322
Score = 55.1 bits (131), Expect = 3e-08, Method: Compositional matrix adjust.
Identities = 52/191 (27%), Positives = 81/191 (42%), Gaps = 32/191 (16%)
Query: 20 LVLGGDHSISFPVIRA---VSEKLGGPVDVLHLDAHPDIYDAF---EGNKYSHASSF--- 70
LVLGGDHS++ I V LG V+ +DAH DI GN + SF
Sbjct: 95 LVLGGDHSLAIGSISGHARVHPDLG----VIWVDAHTDINTPLTTTSGNLHGQPVSFLLK 150
Query: 71 ------------ARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DR 115
+ + A+ ++ +G+R + K G++ + M R +
Sbjct: 151 ELKGKIPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYILKTLGIKYFSMTEVDRLGIGK 210
Query: 116 QFLENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--V 171
E L LG + +++S DVD LDP+F P GGL++R+ L I + +
Sbjct: 211 VMEETLSYLLGRKKRPIHLSFDVDGLDPSFTPATGTPVVGGLTYREGLYITEEIYKTGLL 270
Query: 172 VAADVVEFNPQ 182
D++E NP
Sbjct: 271 SGLDIMEVNPS 281
>pdb|1WVB|A Chain A, Crystal Structure Of Human Arginase I: The Mutant E256q
pdb|1WVB|B Chain B, Crystal Structure Of Human Arginase I: The Mutant E256q
Length = 322
Score = 54.3 bits (129), Expect = 5e-08, Method: Compositional matrix adjust.
Identities = 52/191 (27%), Positives = 80/191 (41%), Gaps = 32/191 (16%)
Query: 20 LVLGGDHSISFPVIRA---VSEKLGGPVDVLHLDAHPDIYDAF---EGNKYSHASSF--- 70
LVLGGDHS++ I V LG V+ +DAH DI GN + SF
Sbjct: 95 LVLGGDHSLAIGSISGHARVHPDLG----VIWVDAHTDINTPLTTTSGNLHGQPVSFLLK 150
Query: 71 ------------ARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DR 115
+ + A+ ++ +G+R + K G++ + M R +
Sbjct: 151 ELKGKIPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYILKTLGIKYFSMTEVDRLGIGK 210
Query: 116 QFLENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--V 171
E L LG + +++S DVD LDP+F P GGL++R L I + +
Sbjct: 211 VMEETLSYLLGRKKRPIHLSFDVDGLDPSFTPATGTPVVGGLTYRQGLYITEEIYKTGLL 270
Query: 172 VAADVVEFNPQ 182
D++E NP
Sbjct: 271 SGLDIMEVNPS 281
>pdb|1XFK|A Chain A, 1.8a Crsytal Strucutre Of Formiminoglutamase From Vibrio
Cholerae O1 Biovar Eltor Str. N16961
Length = 336
Score = 52.4 bits (124), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 52/211 (24%), Positives = 94/211 (44%), Gaps = 26/211 (12%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGP------VDVLHLDAHPDIYDAFE----------GNK 63
+VLGG H I++ + +++ + +++ DAH D+ FE G
Sbjct: 121 IVLGGGHEIAWATFQGLAQHFLATGVKQPRIGIINFDAHFDL-RTFESELAPVRPSSGTP 179
Query: 64 YSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFS--RDRQFLENL 121
++ F + + L V S T E+ + GV E + FS + L L
Sbjct: 180 FNQIHHFCQQQGWDFHYACLGVSRASNTPALFERADKLGVWYVEDKAFSPLSLKDHLTQL 239
Query: 122 K-LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVL----NILHNLQADVVAADV 176
+ + +Y+++D+D A APGVS G+S + ILH + ++ AD+
Sbjct: 240 QHFIDDCDYLYLTIDLDVFPAASAPGVSAPAARGVSLEALAPYFDRILH-YKNKLMIADI 298
Query: 177 VEFNPQRDTVDGMTAMVAAKLVRELTAKISK 207
E+NP D +D TA +AA+L ++ +++
Sbjct: 299 AEYNPSFD-IDQHTARLAARLCWDIANAMAE 328
>pdb|1T5G|A Chain A, Arginase-F2-L-Arginine Complex
pdb|1T5G|B Chain B, Arginase-F2-L-Arginine Complex
pdb|1T5G|C Chain C, Arginase-F2-L-Arginine Complex
pdb|1T5F|A Chain A, Arginase I-Aoh Complex
pdb|1T5F|B Chain B, Arginase I-Aoh Complex
pdb|1T5F|C Chain C, Arginase I-Aoh Complex
Length = 314
Score = 52.4 bits (124), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLAVIWVDAHTDINTPLTTSSGNLAGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPAISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1ZPE|A Chain A, Arginase I Covalently Modified With Butylamine At Q19c
pdb|1ZPE|B Chain B, Arginase I Covalently Modified With Butylamine At Q19c
pdb|1ZPE|C Chain C, Arginase I Covalently Modified With Butylamine At Q19c
pdb|1ZPG|A Chain A, Arginase I Covalently Modified With Propylamine At Q19c
pdb|1ZPG|B Chain B, Arginase I Covalently Modified With Propylamine At Q19c
pdb|1ZPG|C Chain C, Arginase I Covalently Modified With Propylamine At Q19c
Length = 314
Score = 52.4 bits (124), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLAVIWVDAHTDINTPLTTSSGNLAGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPAISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|3E8Q|A Chain A, X-Ray Structure Of Rat Arginase I-T135a: The Unliganded
Complex
pdb|3E8Q|B Chain B, X-Ray Structure Of Rat Arginase I-T135a: The Unliganded
Complex
pdb|3E8Q|C Chain C, X-Ray Structure Of Rat Arginase I-T135a: The Unliganded
Complex
pdb|3E9B|A Chain A, X-Ray Structure Of Rat Arginase I-T135a Mutant: The
Complex With Bec
pdb|3E9B|B Chain B, X-Ray Structure Of Rat Arginase I-T135a Mutant: The
Complex With Bec
pdb|3E9B|C Chain C, X-Ray Structure Of Rat Arginase I-T135a Mutant: The
Complex With Bec
Length = 323
Score = 52.0 bits (123), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 48/187 (25%), Positives = 80/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDI---YDAFEGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI A GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTASSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1HQX|A Chain A, R308k Arginase Variant
pdb|1HQX|B Chain B, R308k Arginase Variant
pdb|1HQX|C Chain C, R308k Arginase Variant
Length = 323
Score = 51.6 bits (122), Expect = 3e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1TBH|A Chain A, H141d Mutant Of Rat Liver Arginase I
pdb|1TBH|B Chain B, H141d Mutant Of Rat Liver Arginase I
pdb|1TBH|C Chain C, H141d Mutant Of Rat Liver Arginase I
Length = 314
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLDGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1TA1|A Chain A, H141c Mutant Of Rat Liver Arginase I
pdb|1TA1|B Chain B, H141c Mutant Of Rat Liver Arginase I
pdb|1TA1|C Chain C, H141c Mutant Of Rat Liver Arginase I
Length = 314
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLCGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|2RLA|A Chain A, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|2RLA|B Chain B, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|2RLA|C Chain C, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
Length = 323
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|3E8Z|A Chain A, X-Ray Structure Of Rat Arginase I-N130a Mutant: The
Unliganded Complex
pdb|3E8Z|B Chain B, X-Ray Structure Of Rat Arginase I-N130a Mutant: The
Unliganded Complex
pdb|3E8Z|C Chain C, X-Ray Structure Of Rat Arginase I-N130a Mutant: The
Unliganded Complex
Length = 323
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDIATPLTTSSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1HQG|A Chain A, Crystal Structure Of The H141c Arginase Variant Complexed
With Products Ornithine And Urea
pdb|1HQG|B Chain B, Crystal Structure Of The H141c Arginase Variant Complexed
With Products Ornithine And Urea
pdb|1HQG|C Chain C, Crystal Structure Of The H141c Arginase Variant Complexed
With Products Ornithine And Urea
Length = 323
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLXGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1TBJ|A Chain A, H141a Mutant Of Rat Liver Arginase I
pdb|1TBJ|B Chain B, H141a Mutant Of Rat Liver Arginase I
pdb|1TBJ|C Chain C, H141a Mutant Of Rat Liver Arginase I
Length = 314
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLAGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1T4S|A Chain A, Arginase-L-Valine Complex
pdb|1T4S|B Chain B, Arginase-L-Valine Complex
pdb|1T4S|C Chain C, Arginase-L-Valine Complex
pdb|1T4P|A Chain A, Arginase-Dehydro-Abh Complex
pdb|1T4P|B Chain B, Arginase-Dehydro-Abh Complex
pdb|1T4P|C Chain C, Arginase-Dehydro-Abh Complex
pdb|1T4R|A Chain A, Arginase-descarboxy-nor-noha Complex
pdb|1T4R|B Chain B, Arginase-descarboxy-nor-noha Complex
pdb|1T4R|C Chain C, Arginase-descarboxy-nor-noha Complex
pdb|1T4T|A Chain A, Arginase-Dinor-Noha Complex
pdb|1T4T|B Chain B, Arginase-Dinor-Noha Complex
pdb|1T4T|C Chain C, Arginase-Dinor-Noha Complex
Length = 314
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1TBL|A Chain A, H141n Mutant Of Rat Liver Arginase I
pdb|1TBL|B Chain B, H141n Mutant Of Rat Liver Arginase I
pdb|1TBL|C Chain C, H141n Mutant Of Rat Liver Arginase I
Length = 314
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLNGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1RLA|A Chain A, Three-Dimensional Structure Of Rat Liver Arginase, The
Binuclear Manganese Metalloenzyme Of The Urea Cycle
pdb|1RLA|B Chain B, Three-Dimensional Structure Of Rat Liver Arginase, The
Binuclear Manganese Metalloenzyme Of The Urea Cycle
pdb|1RLA|C Chain C, Three-Dimensional Structure Of Rat Liver Arginase, The
Binuclear Manganese Metalloenzyme Of The Urea Cycle
pdb|1D3V|A Chain A, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With 2(S)-Amino-6-Boronohexanoic
Acid, An L-Arginine Analog
pdb|1D3V|B Chain B, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With 2(S)-Amino-6-Boronohexanoic
Acid, An L-Arginine Analog
pdb|1HQ5|A Chain A, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With S-(2-Boronoethyl)-L-Cysteine, An
L-Arginine Analogue
pdb|1HQ5|B Chain B, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With S-(2-Boronoethyl)-L-Cysteine, An
L-Arginine Analogue
pdb|1HQF|A Chain A, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With N-Hydroxy-L-Arginine
pdb|1HQF|B Chain B, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With N-Hydroxy-L-Arginine
pdb|1HQF|C Chain C, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With N-Hydroxy-L-Arginine
pdb|1HQH|A Chain A, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With Nor-N-Hydroxy-L-Arginine
pdb|1HQH|B Chain B, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With Nor-N-Hydroxy-L-Arginine
pdb|1HQH|C Chain C, Crystal Structure Of The Binuclear Manganese Metalloenzyme
Arginase Complexed With Nor-N-Hydroxy-L-Arginine
pdb|1R1O|A Chain A, Amino Acid Sulfonamides As Transition-State Analogue
Inhibitors Of Arginase
pdb|1R1O|B Chain B, Amino Acid Sulfonamides As Transition-State Analogue
Inhibitors Of Arginase
pdb|1R1O|C Chain C, Amino Acid Sulfonamides As Transition-State Analogue
Inhibitors Of Arginase
Length = 323
Score = 51.2 bits (121), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 47/187 (25%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1P8O|A Chain A, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8O|B Chain B, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8O|C Chain C, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 314
Score = 49.7 bits (117), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH +I GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTNINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1P8Q|A Chain A, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Cluster Of Arginase I.
pdb|1P8Q|B Chain B, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Cluster Of Arginase I.
pdb|1P8Q|C Chain C, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Cluster Of Arginase I
Length = 314
Score = 49.7 bits (117), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DV+ LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVEGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1P8M|A Chain A, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8M|B Chain B, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8M|C Chain C, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 314
Score = 49.7 bits (117), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH +I GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTEINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|3RLA|A Chain A, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|3RLA|B Chain B, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|3RLA|C Chain C, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|4RLA|A Chain A, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|4RLA|B Chain B, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|4RLA|C Chain C, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|5RLA|A Chain A, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|5RLA|B Chain B, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
pdb|5RLA|C Chain C, Altering The Binuclear Manganese Cluster Of Arginase
Diminishes Thermostability And Catalytic Function
Length = 323
Score = 48.5 bits (114), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGD+S++ I ++ + V+ +DAH DI GN
Sbjct: 95 VVLGGDNSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 153
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 154 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 213
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 214 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 273
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 274 DIMEVNP 280
>pdb|1P8P|A Chain A, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8P|B Chain B, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8P|C Chain C, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 314
Score = 48.5 bits (114), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 79/187 (42%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGD+S++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDNSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1P8N|A Chain A, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8N|B Chain B, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8N|C Chain C, Structural And Functional Importance Of First-shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 314
Score = 48.1 bits (113), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 78/187 (41%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S VD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFAVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1P8R|A Chain A, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8R|B Chain B, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 308
Score = 48.1 bits (113), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 78/187 (41%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGD S++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDESMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S DVD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFDVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|1P8S|A Chain A, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8S|B Chain B, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase
I.
pdb|1P8S|C Chain C, Structural And Functional Importance Of First-Shell Metal
Ligands In The Binuclear Manganese Cluster Of Arginase I
Length = 314
Score = 48.1 bits (113), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 46/187 (24%), Positives = 78/187 (41%), Gaps = 26/187 (13%)
Query: 20 LVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAF---EGN-------------- 62
+VLGGDHS++ I ++ + V+ +DAH DI GN
Sbjct: 90 VVLGGDHSMAIGSISG-HARVHPDLCVIWVDAHTDINTPLTTSSGNLHGQPVAFLLKELK 148
Query: 63 -KYSHASSFARIMEGGYARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSR---DRQFL 118
K+ F+ + A+ ++ +G+R + K G++ + M + +
Sbjct: 149 GKFPDVPGFSWVTPCISAKDIVYIGLRDVDPGEHYIIKTLGIKYFSMTEVDKLGIGKVME 208
Query: 119 ENLK--LGEGVKGVYISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNILHNLQAD--VVAA 174
E LG + +++S VD LDP F P GGLS+R+ L I + +
Sbjct: 209 ETFSYLLGRKKRPIHLSFCVDGLDPVFTPATGTPVVGGLSYREGLYITEEIYKTGLLSGL 268
Query: 175 DVVEFNP 181
D++E NP
Sbjct: 269 DIMEVNP 275
>pdb|4G3H|A Chain A, Crystal Structure Of Helicobacter Pylori Arginase
pdb|4G3H|B Chain B, Crystal Structure Of Helicobacter Pylori Arginase
pdb|4G3H|C Chain C, Crystal Structure Of Helicobacter Pylori Arginase
pdb|4G3H|D Chain D, Crystal Structure Of Helicobacter Pylori Arginase
Length = 330
Score = 46.6 bits (109), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 54/206 (26%), Positives = 93/206 (45%), Gaps = 48/206 (23%)
Query: 19 PLVLGGDHSISFPVIRAV-SEKLGGPVDVLHLDAHPDIYDAFEGN-KYSHA--------- 67
PL+L +H+ F + +A S + +L+LDAH DI+ A++ + K+ H
Sbjct: 84 PLILSSEHANMFGIFQAFRSVHKDKKIGILYLDAHADIHTAYDSDSKHIHGMPLGMVLNR 143
Query: 68 --SSFARIME----------------GGYA---RRLLQVGIRSITKEGREQGKRFGVEQY 106
S F R+ E GG + L+ G+RS EQ +R + +
Sbjct: 144 VRSGFNRMSESEEKAWQKLCSLGLEKGGLEIDPKCLVYFGVRST-----EQSERDVIREL 198
Query: 107 EMRTFSRD--RQFLENL--KLGEGVKGV---YISVDVDCLDPAFAPGVSHIEPGGLSFRD 159
++ FS D R+ ++ + K E +K V Y+S+D+D +D E GLSF +
Sbjct: 199 QIPLFSVDAIRENMQEVVQKTKESLKAVDIIYLSLDLDIMDGKLFTSTGVRENNGLSFDE 258
Query: 160 ----VLNILHNLQADVVAADVVEFNP 181
+ +L + + + A +V E+NP
Sbjct: 259 LKQLLGLLLESFKDRLKAVEVTEYNP 284
>pdb|2A0M|A Chain A, Arginase Superfamily Protein From Trypanosoma Cruzi
Length = 316
Score = 42.7 bits (99), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 43/172 (25%), Positives = 75/172 (43%), Gaps = 11/172 (6%)
Query: 19 PLVLGGDHSISFPVIRAVSEKLGGPVDVLHLDAHPDIYDAFEGNKYSHASSFARIMEGG- 77
P V+GG + S P RA+ G V V+++D+H D+ + + + F +++E
Sbjct: 115 PFVIGGGNDQSAPNGRAMLRAFPGDVGVINVDSHLDVRPPLQDGRVHSGTPFRQLLEESS 174
Query: 78 -YARRLLQVGIRSITKEGREQGKRFGVEQYEMRTFSRDRQ-----FLENLKLGEGVKGVY 131
+R ++ + ++ G + Q + S R+ LE+ G K +
Sbjct: 175 FSGKRFVEFACQG-SQCGALHAQYVRDHQGHLMWLSEVRKKGAVAALED-AFGLTGKNTF 232
Query: 132 ISVDVDCLDPAFAPGVSHIEPGGLSFRDVLNI--LHNLQADVVAADVVEFNP 181
S DVD L + PGVS GLS ++ ++ L V+ D+ E NP
Sbjct: 233 FSFDVDSLKSSDMPGVSCPAAVGLSAQEAFDMCFLAGKTPTVMMMDMSELNP 284
>pdb|1R9J|A Chain A, Transketolase From Leishmania Mexicana
pdb|1R9J|B Chain B, Transketolase From Leishmania Mexicana
Length = 673
Score = 30.8 bits (68), Expect = 0.61, Method: Compositional matrix adjust.
Identities = 19/66 (28%), Positives = 29/66 (43%), Gaps = 6/66 (9%)
Query: 54 DIYDAFEGNKYSHA----SSFARIMEGGYARRLLQVGIRSITKEGREQGKRF--GVEQYE 107
+ Y +F KYSHA S F G + + + + + GRE KRF G +
Sbjct: 607 EAYVSFGWEKYSHAHVGMSGFGASAPAGVLYKKFGITVEEVVRTGRELAKRFPDGTAPLK 666
Query: 108 MRTFSR 113
+FS+
Sbjct: 667 NSSFSK 672
>pdb|2A3L|A Chain A, X-Ray Structure Of Adenosine 5'-Monophosphate Deaminase
From Arabidopsis Thaliana In Complex With Coformycin
5'-Phosphate
Length = 701
Score = 28.9 bits (63), Expect = 2.3, Method: Compositional matrix adjust.
Identities = 20/69 (28%), Positives = 33/69 (47%), Gaps = 2/69 (2%)
Query: 119 ENLKLGEGVKGVYISVDVDCLDPAFA--PGVSHIEPGGLSFRDVLNILHNLQADVVAADV 176
+NL EG+ Y+ + D PA A +S + V LH +Q D +AAD+
Sbjct: 23 DNLTNSEGLDASYLQANGDNEMPADANEEQISMAASSMIRSHSVSGDLHGVQPDPIAADI 82
Query: 177 VEFNPQRDT 185
+ P+++T
Sbjct: 83 LRKEPEQET 91
>pdb|1ML8|A Chain A, Structural Genomics
Length = 134
Score = 26.9 bits (58), Expect = 7.1, Method: Compositional matrix adjust.
Identities = 23/71 (32%), Positives = 38/71 (53%), Gaps = 2/71 (2%)
Query: 116 QFLENLK-LGEGVKGVYISVDVDCLDPAFAP-GVSHIEPGGLSFRDVLNILHNLQADVVA 173
+++E L LGE G I +D + D A +P + + GG S DV++IL + DVV
Sbjct: 6 KWVEGLTFLGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRQDVVD 65
Query: 174 ADVVEFNPQRD 184
+V + +R+
Sbjct: 66 CEVKLTSERRE 76
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
0.320 0.138 0.395
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 6,194,604
Number of Sequences: 62578
Number of extensions: 267564
Number of successful extensions: 583
Number of sequences better than 100.0: 45
Number of HSP's better than 100.0 without gapping: 40
Number of HSP's successfully gapped in prelim test: 5
Number of HSP's that attempted gapping in prelim test: 498
Number of HSP's gapped (non-prelim): 46
length of query: 207
length of database: 14,973,337
effective HSP length: 94
effective length of query: 113
effective length of database: 9,091,005
effective search space: 1027283565
effective search space used: 1027283565
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)