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= psy3377
(336 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|4EFH|A Chain A, Acanthamoeba Actin Complex With Spir Domain D
Length = 375
Score = 130 bits (328), Expect = 8e-31, Method: Compositional matrix adjust.
Identities = 72/214 (33%), Positives = 115/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
GDE+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GDEVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|3MN5|A Chain A, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
Length = 359
Score = 129 bits (325), Expect = 2e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 118/231 (51%), Gaps = 39/231 (16%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG V D Q+
Sbjct: 3 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRVGDEAQS------------------ 44
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 45 -----------------KRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 87
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 88 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 147
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 148 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 195
>pdb|1D4X|A Chain A, Crystal Structure Of Caenorhabditis Elegans Mg-Atp Actin
Complexed With Human Gelsolin Segment 1 At 1.75 A
Resolution
Length = 375
Score = 129 bits (323), Expect = 3e-30, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 3 DEVAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGVVLDSGDGVTHTV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 164 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|1YVN|A Chain A, The Yeast Actin Val 159 Asn Mutant Complex With Human
Gelsolin Segment 1
Length = 375
Score = 128 bits (322), Expect = 4e-30, Method: Compositional matrix adjust.
Identities = 71/212 (33%), Positives = 115/212 (54%), Gaps = 20/212 (9%)
Query: 12 EIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVT 71
E+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 4 EVAALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGM---------------- 47
Query: 72 ASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVL 130
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPVL
Sbjct: 48 GQKDSYVGDEAQ---SKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVL 104
Query: 131 MSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIP 190
++EAP N +S REK+ ++MFE +NVPAF++ AVL+ +++GR TG+V DSG +T +P
Sbjct: 105 LTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGNTHVVP 164
Query: 191 VHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
++ G+ L HAI + L G LT + L E
Sbjct: 165 IYAGFSLPHAILRIDLAGRDLTDYLMKILSER 196
>pdb|2OAN|A Chain A, Structure Of Oxidized Beta-Actin
pdb|2OAN|B Chain B, Structure Of Oxidized Beta-Actin
pdb|2OAN|C Chain C, Structure Of Oxidized Beta-Actin
pdb|2OAN|D Chain D, Structure Of Oxidized Beta-Actin
Length = 375
Score = 128 bits (321), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
D+I ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 3 DDIAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 164 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|1LCU|A Chain A, Polylysine Induces An Antiparallel Actin Dimer That
Nucleates Filament Assembly: Crystal Structure At 3.5 A
Resolution
pdb|1LCU|B Chain B, Polylysine Induces An Antiparallel Actin Dimer That
Nucleates Filament Assembly: Crystal Structure At 3.5 A
Resolution
Length = 371
Score = 128 bits (321), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 74/227 (32%), Positives = 119/227 (52%), Gaps = 23/227 (10%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G V G
Sbjct: 3 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMV----------------VMGQG 46
Query: 75 NKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSE 133
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP L++E
Sbjct: 47 DSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTE 103
Query: 134 APWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHD 193
AP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++
Sbjct: 104 APLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYE 163
Query: 194 GYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 GYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 207
>pdb|3U4L|A Chain A, Cryocooled Bovine Profilin:actin Crystal Structure To 2.4
A
Length = 375
Score = 128 bits (321), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
D+I ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 3 DDIAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 164 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|3BYH|A Chain A, Model Of Actin-Fimbrin Abd2 Complex
pdb|3LUE|A Chain A, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|B Chain B, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|C Chain C, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|D Chain D, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|E Chain E, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|F Chain F, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|G Chain G, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|H Chain H, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|I Chain I, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3LUE|J Chain J, Model Of Alpha-Actinin Ch1 Bound To F-Actin
pdb|3J0S|A Chain A, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|B Chain B, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|C Chain C, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|D Chain D, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|E Chain E, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|F Chain F, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|G Chain G, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|H Chain H, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|I Chain I, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|J Chain J, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|K Chain K, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3J0S|L Chain L, Remodeling Of Actin Filaments By Adf Cofilin Proteins
pdb|3UB5|A Chain A, Profilin:actin With A Wide Open Nucleotide Cleft
Length = 374
Score = 128 bits (321), Expect = 5e-30, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
D+I ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 DDIAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 46
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 47 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 102
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 103 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTV 162
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 163 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 195
>pdb|3B63|B Chain B, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 364
Score = 127 bits (320), Expect = 6e-30, Method: Compositional matrix adjust.
Identities = 73/226 (32%), Positives = 117/226 (51%), Gaps = 22/226 (9%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 2 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 45
Query: 75 NKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSEA 134
+ Y D +++G+ Y EG+I +WD EK+ +T+ + E HP L++EA
Sbjct: 46 DSYVGDEAQ---SKRGILTLKYPIEGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEA 102
Query: 135 PWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHDG 194
P N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++G
Sbjct: 103 PLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEG 162
Query: 195 YVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
Y L HAI + L G LT + L E + +E ++D
Sbjct: 163 YALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 205
>pdb|2W49|D Chain D, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|E Chain E, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|F Chain F, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|G Chain G, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|H Chain H, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|I Chain I, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|J Chain J, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|K Chain K, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|L Chain L, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|M Chain M, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|N Chain N, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|O Chain O, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|P Chain P, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|Q Chain Q, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|R Chain R, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W49|S Chain S, Isometrically Contracting Insect Asynchronous Flight
Muscle
pdb|2W4U|D Chain D, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|E Chain E, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|F Chain F, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|G Chain G, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|H Chain H, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|I Chain I, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|J Chain J, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|K Chain K, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|L Chain L, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|M Chain M, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|N Chain N, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|O Chain O, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|P Chain P, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|Q Chain Q, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|R Chain R, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
pdb|2W4U|S Chain S, Isometrically Contracting Insect Asynchronous Flight
Muscle Quick Frozen After A Length Step
Length = 372
Score = 127 bits (320), Expect = 6e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 211
>pdb|3B63|F Chain F, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 357
Score = 127 bits (320), Expect = 6e-30, Method: Compositional matrix adjust.
Identities = 73/226 (32%), Positives = 117/226 (51%), Gaps = 22/226 (9%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 46
Query: 75 NKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSEA 134
+ Y D +++G+ Y EG+I +WD EK+ +T+ + E HP L++EA
Sbjct: 47 DSYVGDEAQ---SKRGILTLKYPIEGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEA 103
Query: 135 PWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHDG 194
P N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++G
Sbjct: 104 PLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEG 163
Query: 195 YVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
Y L HAI + L G LT + L E + +E ++D
Sbjct: 164 YALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 206
>pdb|2BTF|A Chain A, The Structure Of Crystalline Profilin-Beta-Actin
pdb|1HLU|A Chain A, Structure Of Bovine Beta-Actin-Profilin Complex With Actin
Bound Atp Phosphates Solvent Accessible
Length = 375
Score = 127 bits (320), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 71/213 (33%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
D+I ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 3 DDIAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 164 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|3M6G|A Chain A, Crystal Structure Of Actin In Complex With Lobophorolide
pdb|3M6G|B Chain B, Crystal Structure Of Actin In Complex With Lobophorolide
Length = 371
Score = 127 bits (320), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 211
>pdb|3B63|D Chain D, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 357
Score = 127 bits (320), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 73/226 (32%), Positives = 117/226 (51%), Gaps = 22/226 (9%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 1 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 44
Query: 75 NKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSEA 134
+ Y D +++G+ Y EG+I +WD EK+ +T+ + E HP L++EA
Sbjct: 45 DSYVGDEAQ---SKRGILTLKYPIEGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEA 101
Query: 135 PWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHDG 194
P N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++G
Sbjct: 102 PLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEG 161
Query: 195 YVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
Y L HAI + L G LT + L E + +E ++D
Sbjct: 162 YALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 204
>pdb|1KXP|A Chain A, Crystal Structure Of Human Vitamin D-binding Protein In
Complex With Skeletal Actin
pdb|1M8Q|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|0 Chain 0, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1M8Q|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1MVW|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O18|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O19|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1A|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|0 Chain 0, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1B|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|0 Chain 0, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1C|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|0 Chain 0, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1D|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1E|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|0 Chain 0, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1F|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|1 Chain 1, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|2 Chain 2, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|3 Chain 3, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|4 Chain 4, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|5 Chain 5, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|6 Chain 6, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|7 Chain 7, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|8 Chain 8, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|9 Chain 9, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|V Chain V, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|W Chain W, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|X Chain X, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|Y Chain Y, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1O1G|Z Chain Z, Molecular Models Of Averaged Rigor Crossbridges From
Tomograms Of Insect Flight Muscle
pdb|1H1V|A Chain A, Gelsolin G4-G6ACTIN COMPLEX
pdb|1RDW|X Chain X, Actin Crystal Dynamics: Structural Implications For
F-Actin Nucleation, Polymerization And Branching
Mediated By The Anti-Parallel Dimer
pdb|1RFQ|A Chain A, Actin Crystal Dynamics: Structural Implications For
F-Actin Nucleation, Polymerization And Branching
Mediated By The Anti-Parallel Dimer
pdb|1RFQ|B Chain B, Actin Crystal Dynamics: Structural Implications For
F-Actin Nucleation, Polymerization And Branching
Mediated By The Anti-Parallel Dimer
pdb|2A5X|A Chain A, Crystal Structure Of A Cross-Linked Actin Dimer
pdb|2ASM|A Chain A, Structure Of Rabbit Actin In Complex With Reidispongiolide
A
pdb|2ASP|A Chain A, Structure Of Rabbit Actin In Complex With Reidispongiolide
C
pdb|2FF3|B Chain B, Crystal Structure Of Gelsolin Domain 1:n-Wasp V2 Motif
Hybrid In Complex With Actin
pdb|2FF6|A Chain A, Crystal Structure Of Gelsolin Domain 1:ciboulot Domain 2
Hybrid In Complex With Actin
pdb|2Q1N|A Chain A, Actin Dimer Cross-Linked Between Residues 41 And 374
pdb|2Q1N|B Chain B, Actin Dimer Cross-Linked Between Residues 41 And 374
pdb|2Q31|A Chain A, Actin Dimer Cross-linked Between Residues 41 And 374 And
Proteolytically Cleaved By Subtilisin Between Residues
47 And 48.
pdb|2Q31|B Chain B, Actin Dimer Cross-linked Between Residues 41 And 374 And
Proteolytically Cleaved By Subtilisin Between Residues
47 And 48.
pdb|2Q36|A Chain A, Actin Dimer Cross-Linked Between Residues 191 And 374 And
Complexed With Kabiramide C
pdb|2Q0R|A Chain A, Structure Of Pectenotoxin-2 Bound To Actin
pdb|3BUZ|B Chain B, Crystal Structure Of Ia-Btad-Actin Complex
pdb|2Y83|O Chain O, Actin Filament Pointed End
pdb|2Y83|P Chain P, Actin Filament Pointed End
pdb|2Y83|Q Chain Q, Actin Filament Pointed End
pdb|2Y83|R Chain R, Actin Filament Pointed End
pdb|2Y83|S Chain S, Actin Filament Pointed End
pdb|2Y83|T Chain T, Actin Filament Pointed End
pdb|3TPQ|A Chain A, Crystal Structure Of Wild-Type Mal Rpel Domain In Complex
With Five G- Actins
pdb|3TPQ|B Chain B, Crystal Structure Of Wild-Type Mal Rpel Domain In Complex
With Five G- Actins
pdb|3TPQ|C Chain C, Crystal Structure Of Wild-Type Mal Rpel Domain In Complex
With Five G- Actins
pdb|3TPQ|D Chain D, Crystal Structure Of Wild-Type Mal Rpel Domain In Complex
With Five G- Actins
pdb|3TPQ|E Chain E, Crystal Structure Of Wild-Type Mal Rpel Domain In Complex
With Five G- Actins
pdb|3SJH|A Chain A, Crystal Structure Of A Chimera Containing The N-Terminal
Domain (Residues 8-29) Of Drosophila Ciboulot And The
C-Terminal Domain (Residues 18-44) Of Bovine
Thymosin-Beta4, Bound To G-Actin-Atp- Latrunculin A
pdb|3U8X|A Chain A, Crystal Structure Of A Chimera Containing The N-Terminal
Domain (Residues 8-29) Of Drosophila Ciboulot And The
C-Terminal Domain (Residues 18-44) Of Bovine
Thymosin-Beta4, Bound To G-Actin-Atp
pdb|3U8X|C Chain C, Crystal Structure Of A Chimera Containing The N-Terminal
Domain (Residues 8-29) Of Drosophila Ciboulot And The
C-Terminal Domain (Residues 18-44) Of Bovine
Thymosin-Beta4, Bound To G-Actin-Atp
pdb|3U9D|A Chain A, Crystal Structure Of A Chimera Containing The N-Terminal
Domain (Residues 8-24) Of Drosophila Ciboulot And The
C-Terminal Domain (Residues 13-44) Of Bovine
Thymosin-Beta4, Bound To G-Actin-Atp
pdb|3U9D|C Chain C, Crystal Structure Of A Chimera Containing The N-Terminal
Domain (Residues 8-24) Of Drosophila Ciboulot And The
C-Terminal Domain (Residues 13-44) Of Bovine
Thymosin-Beta4, Bound To G-Actin-Atp
pdb|3U9Z|A Chain A, Crystal Structure Between Actin And A Protein Construct
Containing The First Beta-Thymosin Domain Of Drosophila
Ciboulot (Residues 2-58) With The Three Mutations
N26dQ27KD28S
pdb|3UE5|A Chain A, Ecp-Cleaved Actin In Complex With Spir Domain D
pdb|4GY2|B Chain B, Crystal Structure Of Apo-ia-actin Complex
pdb|4H0T|B Chain B, Crystal Structure Of Ia-adpr-actin Complex
pdb|4H0V|B Chain B, Crystal Structure Of Nad+-ia(e378s)-actin Complex
pdb|4H0X|B Chain B, Crystal Structure Of Nad+-ia(e380a)-actin Complex
pdb|4H0Y|B Chain B, Crystal Structure Of Nad+-ia(e380s)-actin Complex
Length = 375
Score = 127 bits (320), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 211
>pdb|4B1V|A Chain A, Structure Of The Phactr1 Rpel-N Domain Bound To G-Actin
pdb|4B1V|B Chain B, Structure Of The Phactr1 Rpel-N Domain Bound To G-Actin
pdb|4B1Z|A Chain A, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
pdb|4B1Z|B Chain B, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
pdb|4B1Z|C Chain C, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
pdb|4B1Z|D Chain D, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
pdb|4B1Z|E Chain E, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
pdb|4B1Z|F Chain F, Structure Of The Phactr1 Rpel Domain Bound To G-Actin
Length = 376
Score = 127 bits (320), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 4 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 48
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 49 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 104
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 105 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 164
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 165 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 212
>pdb|1IJJ|A Chain A, The X-Ray Crystal Structure Of The Complex Between Rabbit
Skeletal Muscle Actin And Latrunculin A At 2.85 A
Resolution
pdb|1IJJ|B Chain B, The X-Ray Crystal Structure Of The Complex Between Rabbit
Skeletal Muscle Actin And Latrunculin A At 2.85 A
Resolution
pdb|1P8Z|A Chain A, Complex Between Rabbit Muscle Alpha-Actin: Human Gelsolin
Residues Val26-Glu156
pdb|1SQK|A Chain A, Crystal Structure Of Ciboulot In Complex With Skeletal
Actin
pdb|1RGI|A Chain A, Crystal Structure Of Gelsolin Domains G1-G3 Bound To Actin
pdb|3CJB|A Chain A, Actin Dimer Cross-Linked By V. Cholerae Martx Toxin And
Complexed With Gelsolin-Segment 1
pdb|3CJC|A Chain A, Actin Dimer Cross-Linked By V. Cholerae Martx Toxin And
Complexed With Dnase I And Gelsolin-Segment 1
pdb|3B5U|A Chain A, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|B Chain B, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|C Chain C, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|D Chain D, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|E Chain E, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|F Chain F, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|G Chain G, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|H Chain H, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|I Chain I, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|J Chain J, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|K Chain K, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|L Chain L, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|M Chain M, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B5U|N Chain N, Actin Filament Model From Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3DAW|A Chain A, Structure Of The Actin-Depolymerizing Factor Homology
Domain In Complex With Actin
pdb|2V51|B Chain B, Structure Of Mal-Rpel1 Complexed To Actin
pdb|2V51|D Chain D, Structure Of Mal-Rpel1 Complexed To Actin
pdb|2V52|B Chain B, Structure Of Mal-Rpel2 Complexed To G-Actin
pdb|2VYP|A Chain A, Rabbit-Muscle G-Actin In Complex With Myxobacterial
Rhizopodin
pdb|2VYP|B Chain B, Rabbit-Muscle G-Actin In Complex With Myxobacterial
Rhizopodin
pdb|3FFK|B Chain B, Crystal Structure Of Human Gelsolin Domains G1-G3 Bound To
Actin
pdb|3FFK|E Chain E, Crystal Structure Of Human Gelsolin Domains G1-G3 Bound To
Actin
pdb|2YJE|A Chain A, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJE|B Chain B, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJE|C Chain C, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJF|A Chain A, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJF|B Chain B, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJF|C Chain C, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJF|D Chain D, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|2YJF|E Chain E, Oligomeric Assembly Of Actin Bound To Mrtf-A
pdb|3TU5|A Chain A, Actin Complex With Gelsolin Segment 1 Fused To Cobl
Segment
pdb|4EAH|D Chain D, Crystal Structure Of The Formin Homology 2 Domain Of Fmnl3
Bound To Actin
pdb|4EAH|H Chain H, Crystal Structure Of The Formin Homology 2 Domain Of Fmnl3
Bound To Actin
pdb|4EAH|G Chain G, Crystal Structure Of The Formin Homology 2 Domain Of Fmnl3
Bound To Actin
pdb|4EAH|F Chain F, Crystal Structure Of The Formin Homology 2 Domain Of Fmnl3
Bound To Actin
Length = 377
Score = 127 bits (319), Expect = 8e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 5 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 49
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 50 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPT 105
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 106 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 165
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 166 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 213
>pdb|3G37|O Chain O, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|P Chain P, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|Q Chain Q, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|R Chain R, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|S Chain S, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|T Chain T, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|U Chain U, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|V Chain V, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|W Chain W, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|X Chain X, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|Y Chain Y, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
pdb|3G37|Z Chain Z, Cryo-Em Structure Of Actin Filament In The Presence Of
Phosphate
Length = 376
Score = 127 bits (319), Expect = 9e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 4 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 48
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 49 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHTFYNELRVAPEEHPT 104
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 105 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 164
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 165 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 212
>pdb|1QZ5|A Chain A, Structure Of Rabbit Actin In Complex With Kabiramide C
pdb|1QZ6|A Chain A, Structure Of Rabbit Actin In Complex With Jaspisamide A
pdb|1S22|A Chain A, Absolute Stereochemistry Of Ulapualide A
pdb|1Y64|A Chain A, Bni1p Formin Homology 2 Domain Complexed With Atp-actin
pdb|1YXQ|A Chain A, Crystal Structure Of Actin In Complex With Swinholide A
pdb|1YXQ|B Chain B, Crystal Structure Of Actin In Complex With Swinholide A
pdb|2A3Z|A Chain A, Ternary Complex Of The Wh2 Domain Of Wasp With Actin-Dnase
I
pdb|2A40|A Chain A, Ternary Complex Of The Wh2 Domain Of Wave With Actin-Dnase
I
pdb|2A40|D Chain D, Ternary Complex Of The Wh2 Domain Of Wave With Actin-Dnase
I
pdb|2A41|A Chain A, Ternary Complex Of The Wh2 Domain Of Wip With Actin-Dnase
I
pdb|2A42|A Chain A, Actin-Dnase I Complex
pdb|2ASO|A Chain A, Structure Of Rabbit Actin In Complex With Sphinxolide B
pdb|1WUA|A Chain A, The Structure Of Aplyronine A-Actin Complex
pdb|2FXU|A Chain A, X-Ray Structure Of Bistramide A- Actin Complex At 1.35 A
Resolution.
pdb|2D1K|A Chain A, Ternary Complex Of The Wh2 Domain Of Mim With Actin-Dnase
I
pdb|2HMP|A Chain A, Uncomplexed Actin Cleaved With Protease Ecp32
pdb|2HMP|B Chain B, Uncomplexed Actin Cleaved With Protease Ecp32
pdb|2Q0U|A Chain A, Structure Of Pectenotoxin-2 And Latrunculin B Bound To
Actin
pdb|1J6Z|A Chain A, Uncomplexed Actin
pdb|1LOT|B Chain B, Crystal Structure Of The Complex Of Actin With Vitamin
D-Binding Protein
pdb|1MA9|B Chain B, Crystal Structure Of The Complex Of Human Vitamin D
Binding Protein And Rabbit Muscle Actin
pdb|1NWK|A Chain A, Crystal Structure Of Monomeric Actin In The Atp State
pdb|2Q97|A Chain A, Complex Of Mammalian Actin With Toxofilin From Toxoplasma
Gondii
pdb|2PAV|A Chain A, Ternary Complex Of Profilin-Actin With The Last Poly-Pro
Of Human Vasp
pdb|2VCP|A Chain A, Crystal Structure Of N-wasp Vc Domain In Complex With
Skeletal Actin
pdb|2VCP|B Chain B, Crystal Structure Of N-wasp Vc Domain In Complex With
Skeletal Actin
pdb|2ZWH|A Chain A, Model For The F-Actin Structure
pdb|3HBT|A Chain A, The Structure Of Native G-Actin
pdb|3M3N|A Chain A, Structure Of A Longitudinal Actin Dimer Assembled By
Tandem W Domains
pdb|3M3N|B Chain B, Structure Of A Longitudinal Actin Dimer Assembled By
Tandem W Domains
pdb|3M1F|A Chain A, Crosslinked Complex Of Actin With First W Domain Of Vibrio
Parahaemolyticus Vopl
pdb|3MFP|A Chain A, Atomic Model Of F-Actin Based On A 6.6 Angstrom Resolution
Cryoem Map
pdb|4A7F|A Chain A, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 3)
pdb|4A7F|D Chain D, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 3)
pdb|4A7F|E Chain E, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 3)
pdb|4A7F|F Chain F, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 3)
pdb|4A7F|I Chain I, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 3)
pdb|4A7H|A Chain A, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 2)
pdb|4A7H|D Chain D, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 2)
pdb|4A7H|E Chain E, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 2)
pdb|4A7H|F Chain F, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 2)
pdb|4A7H|G Chain G, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 2)
pdb|4A7L|A Chain A, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 1)
pdb|4A7L|D Chain D, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 1)
pdb|4A7L|E Chain E, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 1)
pdb|4A7L|F Chain F, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 1)
pdb|4A7L|I Chain I, Structure Of The Actin-Tropomyosin-Myosin Complex (Rigor
Atm 1)
pdb|4A7N|A Chain A, Structure Of Bare F-Actin Filaments Obtained From The Same
Sample As The Actin-Tropomyosin-Myosin Complex
pdb|4A7N|B Chain B, Structure Of Bare F-Actin Filaments Obtained From The Same
Sample As The Actin-Tropomyosin-Myosin Complex
pdb|4A7N|C Chain C, Structure Of Bare F-Actin Filaments Obtained From The Same
Sample As The Actin-Tropomyosin-Myosin Complex
pdb|4A7N|D Chain D, Structure Of Bare F-Actin Filaments Obtained From The Same
Sample As The Actin-Tropomyosin-Myosin Complex
pdb|4A7N|E Chain E, Structure Of Bare F-Actin Filaments Obtained From The Same
Sample As The Actin-Tropomyosin-Myosin Complex
pdb|4H03|B Chain B, Crystal Structure Of Nad+-ia-actin Complex
Length = 375
Score = 127 bits (319), Expect = 9e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHTFYNELRVAPEEHPT 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 211
>pdb|1ATN|A Chain A, Atomic Structure Of The Actin:dnase I Complex
Length = 373
Score = 127 bits (319), Expect = 9e-30, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 4 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 48
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 49 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHTFYNELRVAPEEHPT 104
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 105 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 164
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 165 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 212
>pdb|1YAG|A Chain A, Structure Of The Yeast Actin-human Gelsolin Segment 1
Complex
Length = 375
Score = 127 bits (319), Expect = 1e-29, Method: Compositional matrix adjust.
Identities = 71/212 (33%), Positives = 114/212 (53%), Gaps = 20/212 (9%)
Query: 12 EIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVT 71
E+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 4 EVAALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGM---------------- 47
Query: 72 ASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVL 130
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPVL
Sbjct: 48 GQKDSYVGDEAQ---SKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVL 104
Query: 131 MSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIP 190
++EAP N +S REK+ ++MFE +NVPAF++ AVL+ +++GR TG+V DSG T +P
Sbjct: 105 LTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGVTHVVP 164
Query: 191 VHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
++ G+ L HAI + L G LT + L E
Sbjct: 165 IYAGFSLPHAILRIDLAGRDLTDYLMKILSER 196
>pdb|1EQY|A Chain A, Complex Between Rabbit Muscle Alpha-Actin: Human Gelsolin
Domain 1
pdb|1ESV|A Chain A, Complex Between Latrunculin A:rabbit Muscle Alpha
Actin:human Gelsolin Domain 1
pdb|1MDU|B Chain B, Crystal Structure Of The Chicken Actin Trimer Complexed
With Human Gelsolin Segment 1 (Gs-1)
pdb|1MDU|E Chain E, Crystal Structure Of The Chicken Actin Trimer Complexed
With Human Gelsolin Segment 1 (Gs-1)
pdb|2PBD|A Chain A, Ternary Complex Of Profilin-Actin With The Poly-Pro-Gab
Domain Of Vasp
Length = 377
Score = 127 bits (319), Expect = 1e-29, Method: Compositional matrix adjust.
Identities = 74/231 (32%), Positives = 120/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
DE ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 5 DETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 49
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP
Sbjct: 50 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHTFYNELRVAPEEHPT 105
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 106 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 165
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 166 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 213
>pdb|1NLV|A Chain A, Crystal Structure Of Dictyostelium Discoideum Actin
Complexed With Ca Atp And Human Gelsolin Segment 1
pdb|1NM1|A Chain A, Crystal Structure Of D. Dicsoideum Actin Complexed With
Gelsolin Segment 1 And Mg Atp At 1.8 A Resolution
pdb|1NMD|A Chain A, Crystal Structure Of D. Discoideum Actin-Gelsolin Segment
1 Complex Crystallized In Presence Of Lithium Atp
Length = 375
Score = 125 bits (315), Expect = 2e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 115/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|3CI5|A Chain A, Complex Of Phosphorylated Dictyostelium Discoideum Actin
With Gelsolin
Length = 375
Score = 125 bits (315), Expect = 2e-29, Method: Compositional matrix adjust.
Identities = 68/214 (31%), Positives = 114/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG +P
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVG-------------------RPRHTG 42
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
V + +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 43 VMVGMGQKDSXVGDEAQSKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|3CHW|A Chain A, Complex Of Dictyostelium Discoideum Actin With Profilin
And The Last Poly-Pro Of Human Vasp
pdb|3CIP|A Chain A, Complex Of Dictyostelium Discoideum Actin With Gelsolin
Length = 375
Score = 125 bits (315), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 115/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|2HF3|A Chain A, Crystal Structure Of Monomeric Actin In The Adp Bound
State
pdb|2HF4|A Chain A, Crystal Structure Of Monomeric Actin In Its Atp-Bound
State
pdb|3MN7|A Chain A, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
pdb|3MN9|A Chain A, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
pdb|3MMV|A Chain A, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
pdb|3MN6|A Chain A, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
pdb|3MN6|F Chain F, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
pdb|3MN6|K Chain K, Structures Of Actin-Bound Wh2 Domains Of Spire And The
Implication For Filament Nucleation
Length = 374
Score = 125 bits (315), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/213 (32%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
+E+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 EEVAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 46
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 47 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 102
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG + +
Sbjct: 103 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVLDSGDGVSHTV 162
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 163 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 195
>pdb|1DEJ|A Chain A, Crystal Structure Of A DictyosteliumTETRAHYMENA CHIMERA
Actin (Mutant 646: Q228kT229AA230YA231KS232EE360H) IN
Complex With Human Gelsolin Segment 1
Length = 375
Score = 125 bits (315), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 115/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|1C0G|A Chain A, Crystal Structure Of 1:1 Complex Between Gelsolin Segment
1 And A DictyosteliumTETRAHYMENA CHIMERA ACTIN (MUTANT
228: Q228kT229AA230YE360H)
Length = 375
Score = 125 bits (315), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 115/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|3B63|A Chain A, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|G Chain G, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 365
Score = 125 bits (314), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 70/210 (33%), Positives = 113/210 (53%), Gaps = 20/210 (9%)
Query: 14 GALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTAS 73
ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 1 AALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGM----------------GQ 44
Query: 74 GNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMS 132
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPVL++
Sbjct: 45 KDSYVGDEAQ---SKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLT 101
Query: 133 EAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVH 192
EAP N +S REK+ ++MFE +NVPAF++ AVL+ +++GR TG+V DSG +T +P++
Sbjct: 102 EAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGNTHVVPIY 161
Query: 193 DGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
G+ L HAI + L G LT + L E
Sbjct: 162 AGFSLPHAILRIDLAGRDLTDYLMKILSER 191
>pdb|3EKS|A Chain A, Crystal Structure Of Monomeric Actin Bound To Cytochalasin
D
pdb|3EKU|A Chain A, Crystal Structure Of Monomeric Actin Bound To Cytochalasin
D
pdb|3EL2|A Chain A, Crystal Structure Of Monomeric Actin Bound To Ca-Atp
Length = 375
Score = 125 bits (314), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/213 (32%), Positives = 114/213 (53%), Gaps = 20/213 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
+E+ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 3 EEVAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 47
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPV
Sbjct: 48 -GQKDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPV 103
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG + +
Sbjct: 104 LLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVLDSGDGVSHTV 163
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
P+++GY L HAI + L G LT + L E
Sbjct: 164 PIYEGYALPHAILRLDLAGRDLTDYLMKILTER 196
>pdb|1C0F|A Chain A, Crystal Structure Of Dictyostelium Caatp-Actin In Complex
With Gelsolin Segment 1
Length = 368
Score = 125 bits (314), Expect = 3e-29, Method: Compositional matrix adjust.
Identities = 69/214 (32%), Positives = 117/214 (54%), Gaps = 27/214 (12%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG +P
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVG-------------------RP---- 38
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+G ++ A +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 39 -RHTGKDSYVGDEAQ--SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 95
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 96 VLLTEAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 155
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 156 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 189
>pdb|3B63|E Chain E, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|H Chain H, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|J Chain J, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|K Chain K, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|N Chain N, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 365
Score = 124 bits (311), Expect = 7e-29, Method: Compositional matrix adjust.
Identities = 72/227 (31%), Positives = 118/227 (51%), Gaps = 23/227 (10%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 2 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 45
Query: 75 NKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSE 133
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP L++E
Sbjct: 46 DSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTE 102
Query: 134 APWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHD 193
AP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++
Sbjct: 103 APLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYE 162
Query: 194 GYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
GY L HAI + L G LT + L E + +E ++D
Sbjct: 163 GYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 206
>pdb|3B63|C Chain C, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|I Chain I, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 365
Score = 124 bits (311), Expect = 7e-29, Method: Compositional matrix adjust.
Identities = 70/210 (33%), Positives = 112/210 (53%), Gaps = 20/210 (9%)
Query: 14 GALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTAS 73
ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 1 AALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGM----------------GQ 44
Query: 74 GNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMS 132
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPVL++
Sbjct: 45 KDSYVGDEAQ---SKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLT 101
Query: 133 EAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVH 192
EAP N +S REK+ ++MFE +NVPAF++ AVL+ +++GR TG+V DSG T +P++
Sbjct: 102 EAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGVTHVVPIY 161
Query: 193 DGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
G+ L HAI + L G LT + L E
Sbjct: 162 AGFSLPHAILRIDLAGRDLTDYLMKILSER 191
>pdb|1T44|A Chain A, Structural Basis Of Actin Sequestration By Thymosin-B4:
Implications For Arp23 ACTIVATION
Length = 370
Score = 124 bits (311), Expect = 8e-29, Method: Compositional matrix adjust.
Identities = 72/227 (31%), Positives = 118/227 (51%), Gaps = 23/227 (10%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 2 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 45
Query: 75 NKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSE 133
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP L++E
Sbjct: 46 DSYVGDEAQ---SKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTE 102
Query: 134 APWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHD 193
AP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++
Sbjct: 103 APLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYE 162
Query: 194 GYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
GY L HAI + L G LT + L E + +E ++D
Sbjct: 163 GYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 206
>pdb|2GWJ|A Chain A, Spvb Adp-Ribosylated Actin: Hexagonal Crystal Form
pdb|2GWK|A Chain A, Spvb Adp-Ribosylated Actin: Orthorhombic Crystal Form
pdb|2GWK|B Chain B, Spvb Adp-Ribosylated Actin: Orthorhombic Crystal Form
Length = 371
Score = 124 bits (310), Expect = 1e-28, Method: Compositional matrix adjust.
Identities = 72/227 (31%), Positives = 118/227 (51%), Gaps = 23/227 (10%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
ALV D GS ++ G+A +D+P+A P++VG G +
Sbjct: 3 ALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQK 46
Query: 75 NKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMSE 133
+ Y D +++G+ Y ++ G+I +WD EK+ +T+ + E HP L++E
Sbjct: 47 DSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTE 103
Query: 134 APWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVHD 193
AP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +P+++
Sbjct: 104 APLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYE 163
Query: 194 GYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
GY L HAI + L G LT + L E + +E ++D
Sbjct: 164 GYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 207
>pdb|3B63|L Chain L, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
pdb|3B63|M Chain M, Actin Filament Model In The Extended Form Of Acromsomal
Bundle In The Limulus Sperm
Length = 365
Score = 123 bits (309), Expect = 1e-28, Method: Compositional matrix adjust.
Identities = 69/210 (32%), Positives = 111/210 (52%), Gaps = 20/210 (9%)
Query: 14 GALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTAS 73
ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 1 AALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM----------------GQ 44
Query: 74 GNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMS 132
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HPVL++
Sbjct: 45 KDSYVGDEAQ---SKRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLT 101
Query: 133 EAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAIPVH 192
EAP N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG T +P++
Sbjct: 102 EAPLNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTVPIY 161
Query: 193 DGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+GY L HAI + L G LT + L E
Sbjct: 162 EGYALPHAILRLDLAGRDLTDYLMKILTER 191
>pdb|3W3D|A Chain A, Crystal Structure Of Smooth Muscle G Actin Dnase I Complex
Length = 374
Score = 123 bits (309), Expect = 1e-28, Method: Compositional matrix adjust.
Identities = 72/231 (31%), Positives = 119/231 (51%), Gaps = 23/231 (9%)
Query: 11 DEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNV 70
+E ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 EETTALVCDNGSGLCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGM--------------- 46
Query: 71 TASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+ Y D +++G+ Y ++ G+I +WD EK+ +++ + E HP
Sbjct: 47 -GQKDSYVGDEAQ---SKRGILTLKYPIEXGIITNWDDMEKIWHHSFYNELRVAPEEHPT 102
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
L++EAP N ++ REK+ ++MFE +NVPA ++ AVL+ +A+GR TG+V DSG T +
Sbjct: 103 LLTEAPLNPKANREKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNV 162
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKD 240
P+++GY L HAI + L G LT + L E + +E ++D
Sbjct: 163 PIYEGYALPHAIMRLDLAGRDLTDYLMKILTERGYSFV---TTAEREIVRD 210
>pdb|3A5L|C Chain C, Crystal Structure Of A Dictyostelium P109a Mg2+-Actin In
Complex With Human Gelsolin Segment 1
pdb|3A5N|C Chain C, Crystal Structure Of A Dictyostelium P109a Ca2+-Actin In
Complex With Human Gelsolin Segment 1
Length = 375
Score = 122 bits (306), Expect = 3e-28, Method: Compositional matrix adjust.
Identities = 68/214 (31%), Positives = 114/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNN 69
G+++ ALV D GS + G+A +D+P+A P++VG G +
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHTGVMVGM-------------- 47
Query: 70 VTASGNKYFIDTNALYVARKGMEIQSY-MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ Y D +++G+ Y ++ G++ +WD EK+ +T+ + E HP
Sbjct: 48 --GQKDSYVGDEAQ---SKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EA N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAALNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|3A5M|C Chain C, Crystal Structure Of A Dictyostelium P109i Mg2+-Actin In
Complex With Human Gelsolin Segment 1
pdb|3A5O|C Chain C, Crystal Structure Of A Dictyostelium P109i Ca2+-Actin In
Complex With Human Gelsolin Segment 1
Length = 375
Score = 121 bits (304), Expect = 5e-28, Method: Compositional matrix adjust.
Identities = 68/214 (31%), Positives = 114/214 (53%), Gaps = 20/214 (9%)
Query: 10 GDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKP-DTN 68
G+++ ALV D GS + G+A +D+P+A P++VG +P T
Sbjct: 2 GEDVQALVIDNGSGMCKAGFAGDDAPRAVFPSIVG-------------------RPRHTG 42
Query: 69 NVTASGNKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSEYHP 128
+ G K + R + ++ ++ G++ +WD EK+ +T+ + E HP
Sbjct: 43 VMVGMGQKDSYVGDEAQSKRGILTLKYPIEXGIVTNWDDMEKIWHHTFYNELRVAPEEHP 102
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSA 188
VL++EA N ++ REK+ ++MFE +N PA ++ AVL+ +A+GR TG+V DSG +
Sbjct: 103 VLLTEAILNPKANREKMTQIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVSHT 162
Query: 189 IPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQEN 222
+P+++GY L HAI + L G LT + L E
Sbjct: 163 VPIYEGYALPHAILRLDLAGRDLTDYMMKILTER 196
>pdb|3QB0|A Chain A, Crystal Structure Of Actin-Related Protein Arp4 From S.
Cerevisiae Complexed With Atp
pdb|3QB0|B Chain B, Crystal Structure Of Actin-Related Protein Arp4 From S.
Cerevisiae Complexed With Atp
pdb|3QB0|C Chain C, Crystal Structure Of Actin-Related Protein Arp4 From S.
Cerevisiae Complexed With Atp
pdb|3QB0|D Chain D, Crystal Structure Of Actin-Related Protein Arp4 From S.
Cerevisiae Complexed With Atp
Length = 498
Score = 99.4 bits (246), Expect = 3e-21, Method: Compositional matrix adjust.
Identities = 72/287 (25%), Positives = 133/287 (46%), Gaps = 34/287 (11%)
Query: 7 LYGGDEIGALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPD 66
+YGGDE+ A+V D GS + +GY+ D P++ +P+V G
Sbjct: 17 VYGGDEVSAVVIDPGSYTTNIGYSGSDFPQSILPSVYG---------------------- 54
Query: 67 TNNVTASGNKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSEY 126
GNK ++ + RK E++ ++ G++ DWD ++ + + S
Sbjct: 55 -KYTADEGNKKIFSEQSIGIPRKDYELKPIIENGLVIDWDTAQEQWQWALQNELYLNSNS 113
Query: 127 H-PVLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATH 185
P L++E WN R+K LE++ E A +L + +FA GR LV D G
Sbjct: 114 GIPALLTEPVWNSTENRKKSLEVLLEGMQFEACYLAPTSTCVSFAAGRPNCLVVDIGHDT 173
Query: 186 TSAIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKDKEPPK 245
S P+ DG L+ + ++ + G ++ K+ L+ +IIP + AIK ++ P+
Sbjct: 174 CSVSPIVDGMTLSKSTRRNFIAGKFINHLIKKALEPK--EIIPLF------AIKQRK-PE 224
Query: 246 WTRKKNLPEVTQSWHNYSVKK-VVQDFQQSVLQVSETPFDEKSILNL 291
+ +K EV +S ++Y+ + Q+ ++++ + T E++ L
Sbjct: 225 FIKKTFDYEVDKSLYDYANNRGFFQECKETLCHICPTKTLEETKTEL 271
>pdb|1K8K|A Chain A, Crystal Structure Of Arp23 COMPLEX
pdb|1TYQ|A Chain A, Crystal Structure Of Arp23 COMPLEX WITH BOUND ATP AND
Calcium
pdb|1U2V|A Chain A, Crystal Structure Of Arp23 COMPLEX WITH BOUND ADP AND
Calcium
pdb|2P9I|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp And Crosslinked With Gluteraldehyde
pdb|2P9K|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Atp And Crosslinked With Glutaraldehyde
pdb|2P9L|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX
pdb|2P9N|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp
pdb|2P9P|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp
pdb|2P9S|A Chain A, Structure Of Bovine Arp23 COMPLEX CO-Crystallized With
AtpMG2+
pdb|2P9U|A Chain A, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Amp-Pnp And Calcium
pdb|3DXK|A Chain A, Structure Of Bos Taurus Arp23 COMPLEX WITH BOUND INHIBITOR
Ck0944636
pdb|3DXM|A Chain A, Structure Of Bos Taurus Arp23 COMPLEX WITH BOUND INHIBITOR
Ck0993548
pdb|3RSE|A Chain A, Structural And Biochemical Characterization Of Two Binding
Sites For Nucleation Promoting Factor Wasp-Vca On Arp23
COMPLEX
pdb|3UKR|A Chain A, Crystal Structure Of Bos Taurus Arp2/3 Complex With Bound
Inhibitor Ck-666
pdb|3UKU|A Chain A, Structure Of Arp2/3 Complex With Bound Inhibitor Ck-869
pdb|3ULE|A Chain A, Structure Of Bos Taurus Arp2/3 Complex With Bound
Inhibitor Ck-869 And Atp
Length = 418
Score = 94.0 bits (232), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 67/240 (27%), Positives = 110/240 (45%), Gaps = 29/240 (12%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
A V D G+ ++GYA P+ IP+ + + E V G
Sbjct: 7 ACVVDCGTGYTKLGYAGNTEPQFIIPSCIAIKESA------------KVGDQAQRRVMKG 54
Query: 75 NKYFIDTNALYVARKGMEIQSY-----MKEGMIEDWDLFEKVLDYTYSKCIESGSEYHPV 129
+D ++ + +E +Y ++ G++EDWDL E+ ++ K + + E H
Sbjct: 55 ----VDDLDFFIGDEAIEKPTYATKWPIRHGIVEDWDLMERFMEQVIFKYLRAEPEDHYF 110
Query: 130 LMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRA--------TGLVFDS 181
L++E P N RE E+MFE +NVP ++ AVLA A+ + TG V DS
Sbjct: 111 LLTEPPLNTPENREYTAEIMFESFNVPGLYIAVQAVLALAASWTSRQVGERTLTGTVIDS 170
Query: 182 GATHTSAIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKDK 241
G T IPV +GYV+ I P+ G +T +Q L++ + I P + +A+K++
Sbjct: 171 GDGVTHVIPVAEGYVIGSCIKHIPIAGRDITYFIQQLLRDREVGIPPEQSLETAKAVKER 230
>pdb|1K8K|B Chain B, Crystal Structure Of Arp23 COMPLEX
pdb|1TYQ|B Chain B, Crystal Structure Of Arp23 COMPLEX WITH BOUND ATP AND
Calcium
pdb|1U2V|B Chain B, Crystal Structure Of Arp23 COMPLEX WITH BOUND ADP AND
Calcium
pdb|2P9I|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp And Crosslinked With Gluteraldehyde
pdb|2P9L|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX
pdb|2P9N|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp
pdb|2P9P|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Adp
pdb|2P9S|B Chain B, Structure Of Bovine Arp23 COMPLEX CO-Crystallized With
AtpMG2+
pdb|2P9U|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Amp-Pnp And Calcium
pdb|3DXK|B Chain B, Structure Of Bos Taurus Arp23 COMPLEX WITH BOUND INHIBITOR
Ck0944636
pdb|3DXM|B Chain B, Structure Of Bos Taurus Arp23 COMPLEX WITH BOUND INHIBITOR
Ck0993548
pdb|3RSE|B Chain B, Structural And Biochemical Characterization Of Two Binding
Sites For Nucleation Promoting Factor Wasp-Vca On Arp23
COMPLEX
pdb|3UKR|B Chain B, Crystal Structure Of Bos Taurus Arp2/3 Complex With Bound
Inhibitor Ck-666
pdb|3UKU|B Chain B, Structure Of Arp2/3 Complex With Bound Inhibitor Ck-869
pdb|3ULE|B Chain B, Structure Of Bos Taurus Arp2/3 Complex With Bound
Inhibitor Ck-869 And Atp
Length = 394
Score = 87.4 bits (215), Expect = 9e-18, Method: Compositional matrix adjust.
Identities = 59/212 (27%), Positives = 99/212 (46%), Gaps = 29/212 (13%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
+V D G+ ++ GYA + P+ PA+VG +P + T G
Sbjct: 8 VVVCDNGTGFVKCGYAGSNFPEHIFPALVG-------------------RPIIRSTTKVG 48
Query: 75 NKYFIDTNALYVARKGMEIQSY------MKEGMIEDWDLFEKVLDYTYS-KCIESGSEYH 127
N I+ L V + E++S M+ G++ +WD + + DYT+ + + +
Sbjct: 49 N---IEIKDLMVGDEASELRSMLEVNYPMENGIVRNWDDMKHLWDYTFGPEKLNIDTRNC 105
Query: 128 PVLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTS 187
+L++E P N REK++E+MFE Y ++ AVL +A G TG+V DSG T
Sbjct: 106 KILLTEPPMNPTKNREKIVEVMFETYQFSGVYVAIQAVLTLYAQGLLTGVVVDSGDGVTH 165
Query: 188 AIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFL 219
PV++G+ L H + + G +T + L
Sbjct: 166 ICPVYEGFSLPHLTRRLDIAGRDITRYLIKLL 197
>pdb|3DWL|A Chain A, Crystal Structure Of Fission Yeast Arp2/3 Complex Lacking
The Arp2 Subunit
pdb|3DWL|B Chain B, Crystal Structure Of Fission Yeast Arp2/3 Complex Lacking
The Arp2 Subunit
Length = 427
Score = 86.7 bits (213), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 64/226 (28%), Positives = 97/226 (42%), Gaps = 23/226 (10%)
Query: 16 LVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASGN 75
++ D G+ ++GYA D+P P V+ G + V KP SG+
Sbjct: 8 IIMDNGTGYSKLGYAGNDAPSYVFPTVIATRSAGASSGPA-----VSSKPSYMASKGSGH 62
Query: 76 ----------KYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYTYSKCIESGSE 125
+FI +AL A G + ++ G IE+WD E+ + K + E
Sbjct: 63 LSSKRATEDLDFFIGNDALKKASAGYSLDYPIRHGQIENWDHMERFWQQSLFKYLRCEPE 122
Query: 126 YHPVLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVL--------AAFANGRATGL 177
H L++E P N RE E+MFE +N ++ AVL + + TG
Sbjct: 123 DHYFLLTEPPLNPPENRENTAEIMFESFNCAGLYIAVQAVLALAASWTSSKVTDRSLTGT 182
Query: 178 VFDSGATHTSAIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENN 223
V DSG T IPV +GYV+ +I PL G +T + L++ N
Sbjct: 183 VVDSGDGVTHIIPVAEGYVIGSSIKTMPLAGRDVTYFVQSLLRDRN 228
>pdb|2P9K|B Chain B, Crystal Structure Of Bovine Arp23 COMPLEX CO-Crystallized
With Atp And Crosslinked With Glutaraldehyde
Length = 394
Score = 86.3 bits (212), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 58/212 (27%), Positives = 99/212 (46%), Gaps = 29/212 (13%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPAVVGVVEDGGQTASIDTPMDVDVKPDTNNVTASG 74
+V D G+ ++ GYA + P+ P++VG +P + T G
Sbjct: 8 VVVCDNGTGFVKCGYAGSNFPEHIFPSLVG-------------------RPIIRSTTKVG 48
Query: 75 NKYFIDTNALYVARKGMEIQSY------MKEGMIEDWDLFEKVLDYTYS-KCIESGSEYH 127
N I+ L V + E++S M+ G++ +WD + + DYT+ + + +
Sbjct: 49 N---IEIKDLMVGDEASELRSMLEVNYPMENGIVRNWDDMKHLWDYTFGPEKLNIDTRNC 105
Query: 128 PVLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTS 187
+L++E P N REK++E+MFE Y ++ AVL +A G TG+V DSG T
Sbjct: 106 KILLTEPPMNPTKNREKIVEVMFETYQFSGVYVAIQAVLTLYAQGLLTGVVVDSGDGVTH 165
Query: 188 AIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFL 219
PV++G+ L H + + G +T + L
Sbjct: 166 ICPVYEGFSLPHLTRRLDIAGRDITRYLIKLL 197
>pdb|4I6M|A Chain A, Structure Of Arp7-arp9-snf2(hsa)-rtt102 Subcomplex Of
Swi/snf Chromatin Remodeler
Length = 477
Score = 73.9 bits (180), Expect = 1e-13, Method: Compositional matrix adjust.
Identities = 69/271 (25%), Positives = 119/271 (43%), Gaps = 42/271 (15%)
Query: 15 ALVFDVGSQSLRVGYAQEDSPKAEIPA-VVGVVEDGGQTASIDTPMDVDVKPDTNNVTAS 73
+V GS G++ + P+ IP+ + ++GG+ I N + A+
Sbjct: 7 CVVIHNGSHRTVAGFSNVELPQCIIPSSYIKRTDEGGEAEFIFGTY--------NXIDAA 58
Query: 74 GNKYFIDTNALYVARKGMEIQSYM-KEGMIEDWDLFEKVLDYTYSKCIESGSEYHPVLMS 132
K R G E+ + + +G+ +WD E Y Y ++ E P++++
Sbjct: 59 AEK-----------RNGDEVYTLVDSQGLPYNWDALEXQWRYLYDTQLKVSPEELPLVIT 107
Query: 133 EAPWNIR---SKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATGLVFDSGATHTSAI 189
N + + E+ EL F+K NVP F +V + A + G+++ V D GA+ +
Sbjct: 108 XPATNGKPDXAILERYYELAFDKLNVPVFQIVIEPLAIALSXGKSSAFVIDIGASGCNVT 167
Query: 190 PVHDGYVLTHAIAKSPLGGDYLTMQCKQFLQENNIDIIPPYMVGGKEAIKDKEPPKWTRK 249
P+ DG V+ +A+ +S GGD+L Q + L P + KE D E +K
Sbjct: 168 PIIDGIVVKNAVVRSKFGGDFLDFQVHERL--------APLI---KEE-NDXENXADEQK 215
Query: 250 KNLPEVTQSWHNYSVKKVVQDFQQSVLQVSE 280
++ T W Y +Q F+ + LQVSE
Sbjct: 216 RS----TDVW--YEASTWIQQFKSTXLQVSE 240
>pdb|4I6M|B Chain B, Structure Of Arp7-arp9-snf2(hsa)-rtt102 Subcomplex Of
Swi/snf Chromatin Remodeler
Length = 439
Score = 35.0 bits (79), Expect = 0.064, Method: Compositional matrix adjust.
Identities = 21/92 (22%), Positives = 41/92 (44%), Gaps = 2/92 (2%)
Query: 129 VLMSEAPWNIRSKREKLLELMFEKYNVPAFFLVKNAVLAAFAN-GRATGLVFDSGATHTS 187
+L++ W+ +S E + + +FE + + ++ A ++ + D G HT
Sbjct: 112 LLITHHSWS-QSDLEIITQYVFESLEINNLIQLPASLAATYSXISLQNCCIIDVGTHHTD 170
Query: 188 AIPVHDGYVLTHAIAKSPLGGDYLTMQCKQFL 219
IP+ D L H ++ P GG + K+ L
Sbjct: 171 IIPIVDYAQLDHLVSSIPXGGQSINDSLKKLL 202
>pdb|4AM6|A Chain A, C-terminal Domain Of Actin-related Protein Arp8 From S.
Cerevisiae
pdb|4AM6|B Chain B, C-terminal Domain Of Actin-related Protein Arp8 From S.
Cerevisiae
pdb|4AM7|A Chain A, Adp-bound C-terminal Domain Of Actin-related Protein Arp8
From S. Cerevisiae
pdb|4AM7|B Chain B, Adp-bound C-terminal Domain Of Actin-related Protein Arp8
From S. Cerevisiae
Length = 655
Score = 31.2 bits (69), Expect = 0.76, Method: Compositional matrix adjust.
Identities = 20/86 (23%), Positives = 39/86 (45%), Gaps = 1/86 (1%)
Query: 139 RSKREKLLELMFEKYNVPAFFLVKNAVLAAFANGRATG-LVFDSGATHTSAIPVHDGYVL 197
+S E + ++ + A +++ ++ + G +T V + GA T V +G VL
Sbjct: 234 KSHVETFIRVLLTELQFQAVAIIQESLATCYGAGISTSTCVVNIGAAETRIACVDEGTVL 293
Query: 198 THAIAKSPLGGDYLTMQCKQFLQENN 223
H+ GGD +T FL +++
Sbjct: 294 EHSAITLDYGGDDITRLFALFLLQSD 319
>pdb|2NZJ|A Chain A, The Crystal Structure Of Rem1 In Complex With Gdp
pdb|2NZJ|B Chain B, The Crystal Structure Of Rem1 In Complex With Gdp
pdb|2NZJ|C Chain C, The Crystal Structure Of Rem1 In Complex With Gdp
pdb|2NZJ|D Chain D, The Crystal Structure Of Rem1 In Complex With Gdp
Length = 175
Score = 28.1 bits (61), Expect = 7.1, Method: Compositional matrix adjust.
Identities = 29/102 (28%), Positives = 47/102 (46%), Gaps = 11/102 (10%)
Query: 101 MIEDWDLFEKVLDYTYSK--CIESGSEYHPVLMSEAPWNIRSKREKLLEL--MFEKYNVP 156
+++ W+ EK LD ++S+ C++ GS Y V + S E ++L + +VP
Sbjct: 56 VVDTWEA-EK-LDKSWSQESCLQGGSAYVIVYSIADRGSFESASELRIQLRRTHQADHVP 113
Query: 157 AFFLVKNAVLA-----AFANGRATGLVFDSGATHTSAIPVHD 193
+ A LA + GRA +VFD TSA H+
Sbjct: 114 IILVGNKADLARCREVSVEEGRACAVVFDCKFIETSATLQHN 155
>pdb|2G3M|A Chain A, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3M|B Chain B, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3M|C Chain C, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3M|D Chain D, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3M|E Chain E, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3M|F Chain F, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala
pdb|2G3N|A Chain A, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
pdb|2G3N|B Chain B, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
pdb|2G3N|C Chain C, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
pdb|2G3N|D Chain D, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
pdb|2G3N|E Chain E, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
pdb|2G3N|F Chain F, Crystal Structure Of The Sulfolobus Solfataricus Alpha-
Glucosidase Mala In Complex With
Beta-Octyl-Glucopyranoside
Length = 693
Score = 28.1 bits (61), Expect = 7.9, Method: Compositional matrix adjust.
Identities = 27/90 (30%), Positives = 39/90 (43%), Gaps = 18/90 (20%)
Query: 49 GGQTASIDTPMDVDVK--------PDTNNVTASGNKYFIDTNALYVARKGMEIQSYMKEG 100
G A ID MD+ VK P + A+ IDT +++ Y KE
Sbjct: 451 GRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDG---IDTEPVFLP-------DYYKEK 500
Query: 101 MIEDWDLFEKVLDYTYSKCIESGSEYHPVL 130
+ E +L K L Y YS +E+ + HPV+
Sbjct: 501 VKEIVELRYKFLPYIYSLALEASEKGHPVI 530
>pdb|1UFB|A Chain A, Crystal Structure Of Tt1696 From Thermus Thermophilus Hb8
pdb|1UFB|B Chain B, Crystal Structure Of Tt1696 From Thermus Thermophilus Hb8
pdb|1UFB|C Chain C, Crystal Structure Of Tt1696 From Thermus Thermophilus Hb8
pdb|1UFB|D Chain D, Crystal Structure Of Tt1696 From Thermus Thermophilus Hb8
Length = 127
Score = 27.7 bits (60), Expect = 9.5, Method: Compositional matrix adjust.
Identities = 19/64 (29%), Positives = 26/64 (40%)
Query: 56 DTPMDVDVKPDTNNVTASGNKYFIDTNALYVARKGMEIQSYMKEGMIEDWDLFEKVLDYT 115
D P DVDV D +KY+I T G + Y + E DL +K+L +
Sbjct: 64 DLPEDVDVPEDLVEAAKVLDKYYIPTRYPDAHPAGPAARHYTRLEAEEALDLAQKILAFV 123
Query: 116 YSKC 119
K
Sbjct: 124 EEKL 127
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
0.315 0.134 0.399
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 10,960,704
Number of Sequences: 62578
Number of extensions: 474945
Number of successful extensions: 1235
Number of sequences better than 100.0: 65
Number of HSP's better than 100.0 without gapping: 51
Number of HSP's successfully gapped in prelim test: 14
Number of HSP's that attempted gapping in prelim test: 1132
Number of HSP's gapped (non-prelim): 97
length of query: 336
length of database: 14,973,337
effective HSP length: 99
effective length of query: 237
effective length of database: 8,778,115
effective search space: 2080413255
effective search space used: 2080413255
T: 11
A: 40
X1: 16 ( 7.3 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.6 bits)
S2: 52 (24.6 bits)