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= 038793
(251 letters)
Database: swissprot
539,616 sequences; 191,569,459 total letters
Searching..................................................done
>sp|Q9ZTX9|ARFD_ARATH Auxin response factor 4 OS=Arabidopsis thaliana GN=ARF4 PE=1 SV=1
Length = 788
Score = 184 bits (466), Expect = 6e-46, Method: Compositional matrix adjust.
Identities = 103/208 (49%), Positives = 135/208 (64%), Gaps = 17/208 (8%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLE------YSAPASVSKAPPTFDLKPEIICRVAD 103
LW A AGP LPKKG++VVYFPQGHLE YS+P + P FDL P+I+CRV +
Sbjct: 66 LWHACAGPLTCLPKKGNVVVYFPQGHLEQDAMVSYSSPLEI----PKFDLNPQIVCRVVN 121
Query: 104 VRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKK 163
V+ L +K TD+VYT++TLLPL E N +GKE+++L + +R+G S+ TP +F K
Sbjct: 122 VQLLANKDTDEVYTQVTLLPLQEFSMLNGEGKEVKELGGEEERNGS-SSVKRTPHMFCKT 180
Query: 164 LRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-DGKS 220
L ASD S + + AE+ F A LDYK+Q + +IAKD+HGV WKF + G+
Sbjct: 181 LTASDTSTHGGFSVPRRAAEDCF---APLDYKQQRPSQELIAKDLHGVEWKFRHIYRGQP 237
Query: 221 RRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RRH LT GW FV QKNLV GD V+F+R
Sbjct: 238 RRHLLTTGWSIFVSQKNLVSGDAVLFLR 265
>sp|O23661|ARFC_ARATH Auxin response factor 3 OS=Arabidopsis thaliana GN=ARF3 PE=1 SV=2
Length = 608
Score = 137 bits (346), Expect = 6e-32, Method: Compositional matrix adjust.
Identities = 80/207 (38%), Positives = 121/207 (58%), Gaps = 18/207 (8%)
Query: 48 LLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYL 107
L LW A AGP SLPK+G LV+YFPQGHLE + S + + L P + CR+ DV+
Sbjct: 53 LELWHACAGPLISLPKRGSLVLYFPQGHLEQAPDFSAA----IYGLPPHVFCRILDVKLH 108
Query: 108 VSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVD---NKRDGEGSTANSTPPLFYKKL 164
TD+VY +++LLP E + +++++ ++D + D E ++TP +F K L
Sbjct: 109 AETTTDEVYAQVSLLPESEDI-----ERKVREGIIDVDGGEEDYEVLKRSNTPHMFCKTL 163
Query: 165 RASDQSKK-KIVIRAKDAENVFPFLAHLDYKK-QINYSVIAKDVHGVAWKFNFV-DGKSR 221
ASD S + + AE+ FP LDY + + + ++A+D+HG+ W+F + G+ R
Sbjct: 164 TASDTSTHGGFSVPRRAAEDCFP---PLDYSQPRPSQELLARDLHGLEWRFRHIYRGQPR 220
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH LT GW FV +K LV GD V+F+R
Sbjct: 221 RHLLTTGWSAFVNKKKLVSGDAVLFLR 247
>sp|Q0JKI9|ARFB_ORYSJ Auxin response factor 2 OS=Oryza sativa subsp. japonica GN=ARF2
PE=2 SV=1
Length = 718
Score = 131 bits (329), Expect = 6e-30, Method: Compositional matrix adjust.
Identities = 83/208 (39%), Positives = 109/208 (52%), Gaps = 17/208 (8%)
Query: 48 LLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYL 107
L LW A AGP LP+KG VVY PQGHLE+ A S P + P + CRV DV
Sbjct: 38 LELWHACAGPVAPLPRKGSAVVYLPQGHLEHLGAAPGSG--PGAAVPPHVFCRVVDVSLH 95
Query: 108 VSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTA----NSTPPLFYKK 163
TD+VY +++L+ E V +E +D DGEG A P +F K
Sbjct: 96 ADAATDEVYAQVSLVADNEEVERRM--REGEDGAAC---DGEGEDAVKRPARIPHMFCKT 150
Query: 164 LRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQINYS-VIAKDVHGVAWKFNFV-DGKS 220
L ASD S + + AE+ FP LDY Q + ++AKD+HG W+F + G+
Sbjct: 151 LTASDTSTHGGFSVPRRAAEDCFP---PLDYSLQRPFQELVAKDLHGTEWRFRHIYRGQP 207
Query: 221 RRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RRH LT GW F+ +K LV GD V+F+R
Sbjct: 208 RRHLLTTGWSGFINKKKLVSGDAVLFLR 235
>sp|Q5JMM1|ARFC_ORYSJ Auxin response factor 3 OS=Oryza sativa subsp. japonica GN=ARF3
PE=2 SV=1
Length = 731
Score = 125 bits (314), Expect = 3e-28, Method: Compositional matrix adjust.
Identities = 74/203 (36%), Positives = 101/203 (49%), Gaps = 10/203 (4%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYLVS 109
LW A AGP SLP++G VVY PQGHL + + L P + CRV DV
Sbjct: 83 LWHACAGPVVSLPRRGSAVVYLPQGHLSAAGAGGGIRGEVAVALPPHVACRVVDVELCAD 142
Query: 110 KKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRASDQ 169
TD+VY ++ L E+ N G ++ + + +F K L ASD
Sbjct: 143 AATDEVYARLALRAEGEVFERNLHGGGIEREDDMEDG--DEERKSRMLHMFCKTLTASDT 200
Query: 170 SKK-KIVIRAKDAENVFPFLAHLDYKKQINYS--VIAKDVHGVAWKFNFV-DGKSRRHYL 225
S + + AE+ FP L H KQ+ S ++AKD+HG W+F + G+ RRH L
Sbjct: 201 STHGGFSVPRRAAEDCFPPLDH----KQLRPSQELVAKDLHGAKWRFRHIYRGQPRRHLL 256
Query: 226 TVGWKYFVRQKNLVPGDTVIFIR 248
T GW FV +K LV GD V+F+R
Sbjct: 257 TTGWSSFVNKKKLVSGDAVLFLR 279
>sp|Q9FGV1|ARFH_ARATH Auxin response factor 8 OS=Arabidopsis thaliana GN=ARF8 PE=2 SV=2
Length = 811
Score = 123 bits (308), Expect = 1e-27, Method: Composition-based stats.
Identities = 86/210 (40%), Positives = 106/210 (50%), Gaps = 23/210 (10%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKA----PPTFDLKPEIICRVA 102
N LW A AGP SLP G VVYFPQGH E A + + P L P++IC++
Sbjct: 20 NSELWHACAGPLVSLPSSGSRVVYFPQGHSEQVAATTNKEVDGHIPNYPSLPPQLICQLH 79
Query: 103 DVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY 161
+V +TD+VY +MTL PL PE E F EL G + F
Sbjct: 80 NVTMHADVETDEVYAQMTLQPLTPEEQKETFVPIEL------------GIPSKQPSNYFC 127
Query: 162 KKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE VFP LDY Q +IA+D+H V WKF + G
Sbjct: 128 KTLTASDTSTHGGFSVPRRAAEKVFP---PLDYTLQPPAQELIARDLHDVEWKFRHIFRG 184
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ +RH LT GW FV K LV GD+VIFIR
Sbjct: 185 QPKRHLLTTGWSVFVSAKRLVAGDSVIFIR 214
>sp|Q6H6V4|ARFF_ORYSJ Auxin response factor 6 OS=Oryza sativa subsp. japonica GN=ARF6
PE=1 SV=1
Length = 908
Score = 122 bits (306), Expect = 3e-27, Method: Composition-based stats.
Identities = 83/218 (38%), Positives = 116/218 (53%), Gaps = 23/218 (10%)
Query: 38 EISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDL 93
E++++ N LW A AGP SLP G VVYFPQGH E A ++ S+ P +L
Sbjct: 19 EVAEEQKCLNSELWHACAGPLVSLPAVGSRVVYFPQGHSEQVAASTNKEMESQIPNYPNL 78
Query: 94 KPEIICRVADVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGST 152
P++IC++ +V +TD+VY +MTL PL P+ + + F EL G+
Sbjct: 79 PPQLICQLHNVTMHADAETDEVYAQMTLQPLSPQELKDPFLPAEL------------GTA 126
Query: 153 ANSTPPLFYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVA 210
+ F K L ASD S + + AE VFP LD+ +Q ++AKD+HG
Sbjct: 127 SKQPTNYFCKTLTASDTSTHGGFSVPRRAAEKVFP---PLDFTQQPPAQELMAKDLHGNE 183
Query: 211 WKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
WKF + G+ +RH LT GW FV K LV GD+V+FI
Sbjct: 184 WKFRHIFRGQPKRHLLTTGWSVFVSAKRLVAGDSVLFI 221
>sp|A2X1A1|ARFF_ORYSI Auxin response factor 6 OS=Oryza sativa subsp. indica GN=ARF6 PE=2
SV=1
Length = 908
Score = 122 bits (306), Expect = 3e-27, Method: Composition-based stats.
Identities = 83/218 (38%), Positives = 116/218 (53%), Gaps = 23/218 (10%)
Query: 38 EISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDL 93
E++++ N LW A AGP SLP G VVYFPQGH E A ++ S+ P +L
Sbjct: 19 EVAEEQKCLNSELWHACAGPLVSLPAVGSRVVYFPQGHSEQVAASTNKEMESQIPNYPNL 78
Query: 94 KPEIICRVADVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGST 152
P++IC++ +V +TD+VY +MTL PL P+ + + F EL G+
Sbjct: 79 PPQLICQLHNVTMHADAETDEVYAQMTLQPLSPQELKDPFLPAEL------------GTA 126
Query: 153 ANSTPPLFYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVA 210
+ F K L ASD S + + AE VFP LD+ +Q ++AKD+HG
Sbjct: 127 SKQPTNYFCKTLTASDTSTHGGFSVPRRAAEKVFP---PLDFTQQPPAQELMAKDLHGNE 183
Query: 211 WKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
WKF + G+ +RH LT GW FV K LV GD+V+FI
Sbjct: 184 WKFRHIFRGQPKRHLLTTGWSVFVSAKRLVAGDSVLFI 221
>sp|Q9SKN5|ARFJ_ARATH Auxin response factor 10 OS=Arabidopsis thaliana GN=ARF10 PE=2 SV=1
Length = 693
Score = 122 bits (305), Expect = 3e-27, Method: Compositional matrix adjust.
Identities = 80/214 (37%), Positives = 106/214 (49%), Gaps = 36/214 (16%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFD---LKPEIICRVADVRY 106
LW A AG +P V YF QGH E++ APP F + P I+CRV V++
Sbjct: 11 LWHACAGSMVQIPSLNSTVFYFAQGHTEHA------HAPPDFHAPRVPPLILCRVVSVKF 64
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDN---------KRDGEGSTANSTP 157
L +TD+V+ K+TLLPLP DL ++N DG G+ P
Sbjct: 65 LADAETDEVFAKITLLPLPG-----------NDLDLENDAVLGLTPPSSDGNGN-GKEKP 112
Query: 158 PLFYKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SVIAKDVHGVAWKFNF 215
F K L SD + + AE +FP LDY + +VIAKD+HG WKF
Sbjct: 113 ASFAKTLTQSDANNGGGFSVPRYCAETIFP---RLDYSAEPPVQTVIAKDIHGETWKFRH 169
Query: 216 V-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ G RRH LT GW FV QK L+ GD+++F+R
Sbjct: 170 IYRGTPRRHLLTTGWSTFVNQKKLIAGDSIVFLR 203
>sp|Q8S985|ARFO_ORYSJ Auxin response factor 15 OS=Oryza sativa subsp. japonica GN=ARF15
PE=2 SV=1
Length = 712
Score = 121 bits (304), Expect = 4e-27, Method: Compositional matrix adjust.
Identities = 80/204 (39%), Positives = 108/204 (52%), Gaps = 13/204 (6%)
Query: 48 LLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYL 107
L LW A AGP LP+KG +VVY PQGHLE+ A + A + P + CRV DV L
Sbjct: 37 LELWHACAGPVAPLPRKGGVVVYLPQGHLEHLGDAPAAAA-AAAAVPPHVFCRVVDVTLL 95
Query: 108 VSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRAS 167
TD+VY +++L+P E V E +D +R P +F K L AS
Sbjct: 96 ADAATDEVYAQLSLVPEKEEVARRADDGEGEDGDGMKQRFAR------MPHMFCKTLTAS 149
Query: 168 DQSKK-KIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-DGKSRRHY 224
D S + + AE+ FP LDY +Q + ++AKD+H W+F + G+ RRH
Sbjct: 150 DTSTHGGFSVPRRAAEDCFP---PLDYSQQRPSQELVAKDLHSTEWRFRHIYRGQPRRHL 206
Query: 225 LTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV +K LV GD V+F+R
Sbjct: 207 LTTGWSAFVNKKKLVSGDAVLFLR 230
>sp|A2YG67|ARFQ_ORYSI Auxin response factor 17 OS=Oryza sativa subsp. indica GN=ARF17
PE=2 SV=1
Length = 917
Score = 120 bits (301), Expect = 8e-27, Method: Composition-based stats.
Identities = 85/209 (40%), Positives = 112/209 (53%), Gaps = 23/209 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDLKPEIICRVA 102
N LW A AGP SLP G VVYFPQGH E A ++ S+ P +L P++IC++
Sbjct: 28 NSELWHACAGPLVSLPAVGSRVVYFPQGHSEQVAASTNKEMESQIPNYPNLPPQLICQLH 87
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPP-LFY 161
+V +TD+VY +MTL PL +EL+D + E +AN P F
Sbjct: 88 NVTMHADAETDEVYAQMTLQPLSP--------QELKDPYL----PAELGSANKQPTNYFC 135
Query: 162 KKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE VFP LD+ +Q +IAKD+HG WKF + G
Sbjct: 136 KTLTASDTSTHGGFSVPRRAAEKVFP---PLDFTQQPPAQELIAKDLHGNEWKFRHIFRG 192
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
+ +RH LT GW FV K LV GD+V+FI
Sbjct: 193 QPKRHLLTTGWSVFVSAKRLVAGDSVLFI 221
>sp|Q653U3|ARFQ_ORYSJ Auxin response factor 17 OS=Oryza sativa subsp. japonica GN=ARF17
PE=2 SV=1
Length = 917
Score = 120 bits (301), Expect = 9e-27, Method: Composition-based stats.
Identities = 85/209 (40%), Positives = 112/209 (53%), Gaps = 23/209 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDLKPEIICRVA 102
N LW A AGP SLP G VVYFPQGH E A ++ S+ P +L P++IC++
Sbjct: 28 NSELWHACAGPLVSLPAVGSRVVYFPQGHSEQVAASTNKEMESQIPNYPNLPPQLICQLH 87
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPP-LFY 161
+V +TD+VY +MTL PL +EL+D + E +AN P F
Sbjct: 88 NVTMHADAETDEVYAQMTLQPLSP--------QELKDPYL----PAELGSANKQPTNYFC 135
Query: 162 KKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE VFP LD+ +Q +IAKD+HG WKF + G
Sbjct: 136 KTLTASDTSTHGGFSVPRRAAEKVFP---PLDFTQQPPAQELIAKDLHGNEWKFRHIFRG 192
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
+ +RH LT GW FV K LV GD+V+FI
Sbjct: 193 QPKRHLLTTGWSVFVSAKRLVAGDSVLFI 221
>sp|Q0DGS1|ARFN_ORYSJ Auxin response factor 14 OS=Oryza sativa subsp. japonica GN=ARF14
PE=2 SV=2
Length = 687
Score = 118 bits (295), Expect = 4e-26, Method: Compositional matrix adjust.
Identities = 71/202 (35%), Positives = 100/202 (49%), Gaps = 7/202 (3%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYLVS 109
LW A AGP +LP++G +VY PQ HL + P + CRV V
Sbjct: 24 LWHACAGPGVALPRRGSALVYLPQAHLAADGGGGEVPPAGAAAVPPHVACRVVGVELRAD 83
Query: 110 KKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRASDQ 169
TD+VY ++ L+ EM+ NF+ + + + P +F K L ASD
Sbjct: 84 AATDEVYARLALVAEGEMLQRNFR-EGGGEDGAGEMEGCDAEKKPRMPHMFCKTLTASDT 142
Query: 170 SKKK-IVIRAKDAENVFPFLAHLDYKK-QINYSVIAKDVHGVAWKFNFV-DGKSRRHYLT 226
S + + AE+ FP LDYK + + +IA D+HG WKF + G+ RRH LT
Sbjct: 143 STHGGFSVPRRAAEDCFP---PLDYKTVRPSQELIAVDLHGTQWKFRHIYRGQPRRHLLT 199
Query: 227 VGWKYFVRQKNLVPGDTVIFIR 248
+GW FV +K LV GD V+F+R
Sbjct: 200 IGWSSFVNRKKLVSGDAVLFLR 221
>sp|Q0JCZ4|ARFI_ORYSJ Auxin response factor 9 OS=Oryza sativa subsp. japonica GN=ARF9
PE=2 SV=1
Length = 673
Score = 118 bits (295), Expect = 4e-26, Method: Compositional matrix adjust.
Identities = 77/205 (37%), Positives = 102/205 (49%), Gaps = 21/205 (10%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGH---LEYSAPASVSKAPPTFDLKPEIICRVADVRY 106
LW A AGP ++PK+G+ V YFPQGH LE S + + P F+L +I+C V +V
Sbjct: 25 LWHACAGPLVTVPKRGERVYYFPQGHMEQLEASTNQQLDQYLPMFNLPSKILCSVVNVEL 84
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRA 166
+D+VY ++ L P + ELQDL E TA+S F K L A
Sbjct: 85 RAEADSDEVYAQIMLQPEADQSELTSLDPELQDL--------EKCTAHS----FCKTLTA 132
Query: 167 SDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGKSRRH 223
SD S + + AE P LD + ++AKD+HG W F + G+ RRH
Sbjct: 133 SDTSTHGGFSVLRRHAEECLP---QLDMSQNPPCQELVAKDLHGTEWHFRHIFRGQPRRH 189
Query: 224 YLTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV K LV GD IF+R
Sbjct: 190 LLTTGWSVFVSSKRLVAGDAFIFLR 214
>sp|Q2QM84|ARFY_ORYSJ Auxin response factor 25 OS=Oryza sativa subsp. japonica GN=ARF25
PE=2 SV=1
Length = 899
Score = 117 bits (293), Expect = 7e-26, Method: Composition-based stats.
Identities = 83/209 (39%), Positives = 108/209 (51%), Gaps = 23/209 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS---VSKAPPTF-DLKPEIICRVA 102
N LW A AGP SLP VVYFPQGH E A ++ V P + +L P++IC++
Sbjct: 26 NSELWHACAGPLVSLPVVRSRVVYFPQGHSEQVAASTNKEVDAQIPNYPNLPPQLICQLH 85
Query: 103 DVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY 161
+V +TD+VY +MTL PL PE E F EL G+ + F
Sbjct: 86 NVTMHADAETDEVYAQMTLQPLSPEEQKEPFLPMEL------------GAASKQPTNYFC 133
Query: 162 KKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE VFP LD+ +Q +IA+D+H WKF + G
Sbjct: 134 KTLTASDTSTHGGFSVPRRAAEKVFP---PLDFSQQPPAQELIARDLHDNEWKFRHIFRG 190
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
+ +RH LT GW FV K LV GD+VIFI
Sbjct: 191 QPKRHLLTTGWSVFVSAKRLVAGDSVIFI 219
>sp|Q6K223|ARFH_ORYSJ Auxin response factor 8 OS=Oryza sativa subsp. japonica GN=ARF8
PE=2 SV=1
Length = 681
Score = 117 bits (293), Expect = 8e-26, Method: Compositional matrix adjust.
Identities = 78/205 (38%), Positives = 104/205 (50%), Gaps = 24/205 (11%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLK--PEII-CRVADVRY 106
LW A AG ++P G V YFPQGH E++ + A P P ++ CRVA VRY
Sbjct: 22 LWLACAGGMCTVPPVGAAVYYFPQGHAEHA----LGLAAPELSAARVPALVPCRVASVRY 77
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRA 166
+ TD+V+ ++ L+PL + E D+ D GE + P F K L
Sbjct: 78 MADPDTDEVFARIRLVPL--------RAAEDGDVEEDGAAAGE---EHEKPASFAKTLTQ 126
Query: 167 SDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SVIAKDVHGVAWKFNFV-DGKSRRH 223
SD + + AE +FP LDY +V+AKDVHGVAW F + G RRH
Sbjct: 127 SDANNGGGFSVPRYCAETIFP---RLDYAADPPVQTVVAKDVHGVAWNFRHIYRGTPRRH 183
Query: 224 YLTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV QK LV GD+++F+R
Sbjct: 184 LLTTGWSTFVNQKKLVAGDSIVFLR 208
>sp|A3B9A0|ARFP_ORYSJ Auxin response factor 16 OS=Oryza sativa subsp. japonica GN=ARF16
PE=2 SV=1
Length = 1055
Score = 114 bits (284), Expect = 9e-25, Method: Composition-based stats.
Identities = 78/209 (37%), Positives = 106/209 (50%), Gaps = 22/209 (10%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPA---SVSKAPPTFDLKPEIICRVAD 103
N LW A AGP SLP G LVVYFPQGH E A + + P L ++IC++
Sbjct: 22 NSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMHKELDNIPGYPSLPSKLICKLLS 81
Query: 104 VRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY-K 162
+ +TD+VY +MTL P+ + + EL G N P F+ K
Sbjct: 82 LTLHADSETDEVYAQMTLQPVNKYDRDAMLASEL------------GLKQNKQPAEFFCK 129
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGK 219
L ASD S + + AE +FP LD+ Q +IAKD+H ++WKF + G+
Sbjct: 130 TLTASDTSTHGGFSVPRRAAEKIFP---PLDFTMQPPAQELIAKDLHDISWKFRHIYRGQ 186
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+RH LT GW FV K L+ GD+V+FIR
Sbjct: 187 PKRHLLTTGWSVFVSTKRLLAGDSVLFIR 215
>sp|A2YAA5|ARFP_ORYSI Auxin response factor 16 OS=Oryza sativa subsp. indica GN=ARF16
PE=2 SV=1
Length = 1055
Score = 114 bits (284), Expect = 9e-25, Method: Composition-based stats.
Identities = 78/209 (37%), Positives = 106/209 (50%), Gaps = 22/209 (10%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPA---SVSKAPPTFDLKPEIICRVAD 103
N LW A AGP SLP G LVVYFPQGH E A + + P L ++IC++
Sbjct: 22 NSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMHKELDNIPGYPSLPSKLICKLLS 81
Query: 104 VRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY-K 162
+ +TD+VY +MTL P+ + + EL G N P F+ K
Sbjct: 82 LTLHADSETDEVYVQMTLQPVNKYDRDAMLASEL------------GLKQNKQPAEFFCK 129
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGK 219
L ASD S + + AE +FP LD+ Q +IAKD+H ++WKF + G+
Sbjct: 130 TLTASDTSTHGGFSVPRRAAEKIFP---PLDFTMQPPAQELIAKDLHDISWKFRHIYRGQ 186
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+RH LT GW FV K L+ GD+V+FIR
Sbjct: 187 PKRHLLTTGWSVFVSTKRLLAGDSVLFIR 215
>sp|Q9ZTX8|ARFF_ARATH Auxin response factor 6 OS=Arabidopsis thaliana GN=ARF6 PE=1 SV=2
Length = 935
Score = 112 bits (280), Expect = 3e-24, Method: Composition-based stats.
Identities = 80/217 (36%), Positives = 111/217 (51%), Gaps = 21/217 (9%)
Query: 38 EISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS---VSKAPPTF-DL 93
E++ + N LW A AGP SLP G VVYFPQGH E A ++ V P + L
Sbjct: 14 EVTGEKRVLNSELWHACAGPLVSLPPVGSRVVYFPQGHSEQVAASTNKEVDAHIPNYPSL 73
Query: 94 KPEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTA 153
P++IC++ +V +TD+VY +MTL PL +E +D + + G +
Sbjct: 74 HPQLICQLHNVTMHADVETDEVYAQMTLQPL--------NAQEQKDPYLPAEL---GVPS 122
Query: 154 NSTPPLFYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAW 211
F K L ASD S + + AE VFP LDY +Q ++A+D+H W
Sbjct: 123 RQPTNYFCKTLTASDTSTHGGFSVPRRAAEKVFP---PLDYSQQPPAQELMARDLHDNEW 179
Query: 212 KFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
KF + G+ +RH LT GW FV K LV GD+V+FI
Sbjct: 180 KFRHIFRGQPKRHLLTTGWSVFVSAKRLVAGDSVLFI 216
>sp|Q93YR9|ARFP_ARATH Auxin response factor 16 OS=Arabidopsis thaliana GN=ARF16 PE=2 SV=1
Length = 670
Score = 111 bits (278), Expect = 5e-24, Method: Compositional matrix adjust.
Identities = 73/203 (35%), Positives = 101/203 (49%), Gaps = 18/203 (8%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPTFDLKPEIICRVADVRYLVS 109
LW A AG +P V YFPQGH E + P + P ++CRV ++Y+
Sbjct: 20 LWHACAGGMVRMPPMNSKVFYFPQGHAENAYDCVDFGNLP---IPPMVLCRVLAIKYMAD 76
Query: 110 KKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANS-TPPLFYKKLRASD 168
++D+V+ K+ L+PL K E D + D G +NS P F K L SD
Sbjct: 77 AESDEVFAKLRLIPL--------KDDEYVDHEYGDGEDSNGFESNSEKTPSFAKTLTQSD 128
Query: 169 QSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SVIAKDVHGVAWKFNFV-DGKSRRHYL 225
+ + AE +FP LDY + +++AKDVHG WKF + G RRH L
Sbjct: 129 ANNGGGFSVPRYCAETIFP---RLDYNAEPPVQTILAKDVHGDVWKFRHIYRGTPRRHLL 185
Query: 226 TVGWKYFVRQKNLVPGDTVIFIR 248
T GW FV QK LV GD+++F+R
Sbjct: 186 TTGWSNFVNQKKLVAGDSIVFMR 208
>sp|Q7XKK6|ARFJ_ORYSJ Auxin response factor 10 OS=Oryza sativa subsp. japonica GN=ARF10
PE=2 SV=3
Length = 699
Score = 111 bits (277), Expect = 5e-24, Method: Compositional matrix adjust.
Identities = 79/228 (34%), Positives = 109/228 (47%), Gaps = 29/228 (12%)
Query: 34 LIFTEIS-----DKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPA---SVS 85
L F E++ D + LW A AG S+P G V YFPQGH E ++ A S +
Sbjct: 2 LTFMELAGPTEGDGGGSVDSQLWAACAGSMSSVPPVGAAVYYFPQGHAEQASAAVDLSSA 61
Query: 86 KAPPTFDLKPEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNK 145
+ PP + CRV VR++ ++D+V+ K+ L+PL G + D+
Sbjct: 62 RVPPL------VPCRVVAVRFMADAESDEVFAKIRLVPL-------RPGDAVVDVGEAAA 108
Query: 146 RDGEGSTANSTP--PLFYKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SV 201
+ NS P F K L SD + + AE +FP LDY + SV
Sbjct: 109 AEARREEENSRPRPTSFAKTLTQSDANNGGGFSVPRFCAETIFP---ELDYSSEPPVQSV 165
Query: 202 IAKDVHGVAWKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
AKDVHGV W F + G RRH LT GW FV +K L GD+++F+R
Sbjct: 166 CAKDVHGVEWTFRHIYRGTPRRHLLTTGWSPFVNKKQLTAGDSIVFMR 213
>sp|Q01I35|ARFJ_ORYSI Auxin response factor 10 OS=Oryza sativa subsp. indica GN=ARF10
PE=2 SV=2
Length = 699
Score = 111 bits (277), Expect = 5e-24, Method: Compositional matrix adjust.
Identities = 79/228 (34%), Positives = 109/228 (47%), Gaps = 29/228 (12%)
Query: 34 LIFTEIS-----DKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPA---SVS 85
L F E++ D + LW A AG S+P G V YFPQGH E ++ A S +
Sbjct: 2 LTFMELAGPTEGDGGGSVDSQLWAACAGSMSSVPPVGAAVYYFPQGHAEQASAAVDLSSA 61
Query: 86 KAPPTFDLKPEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNK 145
+ PP + CRV VR++ ++D+V+ K+ L+PL G + D+
Sbjct: 62 RVPPL------VPCRVVAVRFMADAESDEVFAKIRLVPL-------RPGDAVVDVGEAAA 108
Query: 146 RDGEGSTANSTP--PLFYKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SV 201
+ NS P F K L SD + + AE +FP LDY + SV
Sbjct: 109 AEARREEENSRPRPTSFAKTLTQSDANNGGGFSVPRFCAETIFP---ELDYSSEPPVQSV 165
Query: 202 IAKDVHGVAWKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
AKDVHGV W F + G RRH LT GW FV +K L GD+++F+R
Sbjct: 166 CAKDVHGVEWTFRHIYRGTPRRHLLTTGWSPFVNKKQLTAGDSIVFMR 213
>sp|Q9ZPY6|ARFK_ARATH Auxin response factor 11 OS=Arabidopsis thaliana GN=ARF11 PE=2 SV=3
Length = 622
Score = 111 bits (277), Expect = 6e-24, Method: Compositional matrix adjust.
Identities = 73/227 (32%), Positives = 104/227 (45%), Gaps = 42/227 (18%)
Query: 39 ISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDLK 94
+ DD+ LW+A AGP +P+ G+ V YFPQGH+E ++ V + P F+L
Sbjct: 32 LGSNDDELYTELWKACAGPLVEVPRYGERVFYFPQGHMEQLVASTNQGVVDQEIPVFNLP 91
Query: 95 PEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTAN 154
P+I+CRV V +TD+VY ++TL P + + +
Sbjct: 92 PKILCRVLSVTLKAEHETDEVYAQITLQP----------------------EEDQSEPTS 129
Query: 155 STPPL----------FYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQI-NYSVI 202
PPL F K L ASD S + K A P LD + ++
Sbjct: 130 LDPPLVEPAKPTVDSFVKILTASDTSTHGGFSVLRKHATECLP---SLDMTQPTPTQELV 186
Query: 203 AKDVHGVAWKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
A+D+HG W+F + G+ RRH LT GW FV K LV GD +F+R
Sbjct: 187 ARDLHGYEWRFKHIFRGQPRRHLLTTGWSTFVTSKRLVAGDAFVFLR 233
>sp|Q0J951|ARFL_ORYSJ Auxin response factor 12 OS=Oryza sativa subsp. japonica GN=ARF12
PE=2 SV=1
Length = 818
Score = 110 bits (275), Expect = 8e-24, Method: Composition-based stats.
Identities = 80/210 (38%), Positives = 107/210 (50%), Gaps = 25/210 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKA-----PPTFDLKPEIICRV 101
N LW A AGP LP G VVYFPQGH E A AS +K P +L ++IC++
Sbjct: 29 NSELWHACAGPLVCLPTVGTRVVYFPQGHSEQVA-ASTNKEVEGHIPNYPNLPAQLICQL 87
Query: 102 ADVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLF 160
DV +TD+VY +MTL PL P+ + + E+ G + F
Sbjct: 88 HDVTMHADVETDEVYAQMTLQPLNPQEQNDAYLPAEM------------GIMSKQPTNYF 135
Query: 161 YKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-D 217
K L ASD S + + AE VFP LD+ +Q +IA+D+H + WKF +
Sbjct: 136 CKTLTASDTSTHGGFSVPRRAAERVFP---PLDFTQQPPAQELIARDIHDIEWKFRHIFR 192
Query: 218 GKSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
G+ +RH LT GW FV K LV GD+V+FI
Sbjct: 193 GQPKRHLLTTGWSVFVSAKRLVAGDSVLFI 222
>sp|Q258Y5|ARFL_ORYSI Auxin response factor 12 OS=Oryza sativa subsp. indica GN=ARF12
PE=2 SV=1
Length = 816
Score = 110 bits (275), Expect = 8e-24, Method: Composition-based stats.
Identities = 80/210 (38%), Positives = 107/210 (50%), Gaps = 25/210 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKA-----PPTFDLKPEIICRV 101
N LW A AGP LP G VVYFPQGH E A AS +K P +L ++IC++
Sbjct: 29 NSELWHACAGPLVCLPTVGTRVVYFPQGHSEQVA-ASTNKEVEGHIPNYPNLPAQLICQL 87
Query: 102 ADVRYLVSKKTDKVYTKMTLLPL-PEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLF 160
DV +TD+VY +MTL PL P+ + + E+ G + F
Sbjct: 88 HDVTMHADVETDEVYAQMTLQPLNPQEQNDAYLPAEM------------GIMSKQPTNYF 135
Query: 161 YKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-D 217
K L ASD S + + AE VFP LD+ +Q +IA+D+H + WKF +
Sbjct: 136 CKTLTASDTSTHGGFSVPRRAAERVFP---PLDFTQQPPAQELIARDIHDIEWKFRHIFR 192
Query: 218 GKSRRHYLTVGWKYFVRQKNLVPGDTVIFI 247
G+ +RH LT GW FV K LV GD+V+FI
Sbjct: 193 GQPKRHLLTTGWSVFVSAKRLVAGDSVLFI 222
>sp|Q8L7G0|ARFA_ARATH Auxin response factor 1 OS=Arabidopsis thaliana GN=ARF1 PE=1 SV=2
Length = 665
Score = 110 bits (275), Expect = 9e-24, Method: Compositional matrix adjust.
Identities = 71/205 (34%), Positives = 106/205 (51%), Gaps = 21/205 (10%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGH---LEYSAPASVSKAPPTFDLKPEIICRVADVRY 106
LW A AGP +LP++G+ V YFP+GH LE S + + P+F+L +I+C+V +++
Sbjct: 23 LWHACAGPLVTLPREGERVYYFPEGHMEQLEASMHQGLEQQMPSFNLPSKILCKVINIQR 82
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRA 166
+TD+VY ++TLLP + +Q+ E T +S F K L A
Sbjct: 83 RAEPETDEVYAQITLLPELDQSEPTSPDAPVQEP--------EKCTVHS----FCKTLTA 130
Query: 167 SDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINYS-VIAKDVHGVAWKFNFV-DGKSRRH 223
SD S + + A++ P LD +Q + ++A D+H W F + G+ RRH
Sbjct: 131 SDTSTHGGFSVLRRHADDCLP---PLDMSQQPPWQELVATDLHNSEWHFRHIFRGQPRRH 187
Query: 224 YLTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV K LV GD IF+R
Sbjct: 188 LLTTGWSVFVSSKKLVAGDAFIFLR 212
>sp|Q9XED8|ARFI_ARATH Auxin response factor 9 OS=Arabidopsis thaliana GN=ARF9 PE=1 SV=1
Length = 638
Score = 110 bits (274), Expect = 1e-23, Method: Compositional matrix adjust.
Identities = 76/211 (36%), Positives = 104/211 (49%), Gaps = 31/211 (14%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDLKPEIICRVADVR 105
LW+ AGP +P+ + V YFPQGH+E ++ ++ P F L P+I+C V +V
Sbjct: 13 LWKLCAGPLVDVPQAQERVYYFPQGHMEQLEASTQQVDLNTMKPLFVLPPKILCNVMNVS 72
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKG----KELQDLVVDNKRDGEGSTANSTPPLFY 161
K TD+VY ++TL+P+ V E ELQ V + F
Sbjct: 73 LQAEKDTDEVYAQITLIPVGTEVDEPMSPDPSPPELQRPKVHS---------------FS 117
Query: 162 KKLRASDQSKKK--IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-D 217
K L ASD S V+R E + P LD +Q ++A+DVHG WKF +
Sbjct: 118 KVLTASDTSTHGGFSVLRKHATECLPP----LDMTQQTPTQELVAEDVHGYQWKFKHIFR 173
Query: 218 GKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
G+ RRH LT GW FV K LV GDT +F+R
Sbjct: 174 GQPRRHLLTTGWSTFVTSKRLVAGDTFVFLR 204
>sp|Q8RYC8|ARFS_ARATH Auxin response factor 19 OS=Arabidopsis thaliana GN=ARF19 PE=1 SV=2
Length = 1086
Score = 109 bits (272), Expect = 2e-23, Method: Composition-based stats.
Identities = 78/210 (37%), Positives = 104/210 (49%), Gaps = 24/210 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKA----PPTFDLKPEIICRVA 102
N LW A AGP SLP G LVVYFPQGH E A AS+ K P +L ++IC +
Sbjct: 21 NSQLWHACAGPLVSLPPVGSLVVYFPQGHSEQVA-ASMQKQTDFIPNYPNLPSKLICLLH 79
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY- 161
V +TD+VY +MTL P+ + E ++ G N P F+
Sbjct: 80 SVTLHADTETDEVYAQMTLQPVNKYDREALLASDM------------GLKLNRQPTEFFC 127
Query: 162 KKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE +FP LD+ Q ++AKD+H W F + G
Sbjct: 128 KTLTASDTSTHGGFSVPRRAAEKIFP---PLDFSMQPPAQEIVAKDLHDTTWTFRHIYRG 184
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ +RH LT GW FV K L GD+V+F+R
Sbjct: 185 QPKRHLLTTGWSVFVSTKRLFAGDSVLFVR 214
>sp|P93022|ARFG_ARATH Auxin response factor 7 OS=Arabidopsis thaliana GN=ARF7 PE=1 SV=2
Length = 1164
Score = 108 bits (271), Expect = 2e-23, Method: Composition-based stats.
Identities = 78/210 (37%), Positives = 105/210 (50%), Gaps = 24/210 (11%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKA----PPTFDLKPEIICRVA 102
N LW A AGP SLP G LVVYFPQGH E A AS+ K P +L ++IC +
Sbjct: 22 NSELWHACAGPLISLPPAGSLVVYFPQGHSEQVA-ASMQKQTDFIPSYPNLPSKLICMLH 80
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY- 161
+V +TD+VY +MTL P+ + + ++ G N P F+
Sbjct: 81 NVTLNADPETDEVYAQMTLQPVNKYDRDALLASDM------------GLKLNRQPNEFFC 128
Query: 162 KKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQIN-YSVIAKDVHGVAWKFNFV-DG 218
K L ASD S + + AE +FP LD+ Q ++AKD+H W F + G
Sbjct: 129 KTLTASDTSTHGGFSVPRRAAEKIFP---ALDFSMQPPCQELVAKDIHDNTWTFRHIYRG 185
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ +RH LT GW FV K L GD+V+FIR
Sbjct: 186 QPKRHLLTTGWSVFVSTKRLFAGDSVLFIR 215
>sp|Q0D9R7|ARFS_ORYSJ Auxin response factor 19 OS=Oryza sativa subsp. japonica GN=ARF19
PE=2 SV=2
Length = 1161
Score = 107 bits (268), Expect = 6e-23, Method: Composition-based stats.
Identities = 83/232 (35%), Positives = 109/232 (46%), Gaps = 34/232 (14%)
Query: 25 CEGEIETDDLIFTEISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASV 84
CEGE I +E LW A AGP SLP G LVVYFPQGH E A AS+
Sbjct: 37 CEGEKTKAPAINSE-----------LWHACAGPLVSLPPAGSLVVYFPQGHSEQVA-ASM 84
Query: 85 SK-----APPTFDLKPEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQD 139
K P +L ++IC + +V +TD+VY +MTL P+ E +L +
Sbjct: 85 QKDVDAHVPSYPNLPSKLICLLHNVTLHADPETDEVYAQMTLQPVTSYGKEAL---QLSE 141
Query: 140 LVVDNKRDGEGSTANSTPPLFYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQIN 198
L + R F K L ASD S + + AE +FP LD+ Q
Sbjct: 142 LALKQAR--------PQTEFFCKTLTASDTSTHGGFSVPRRAAEKIFP---PLDFSMQPP 190
Query: 199 YSVI-AKDVHGVAWKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ A+D+H W F + G+ +RH LT GW FV K L GD+VIF+R
Sbjct: 191 AQELQARDLHDNVWTFRHIYRGQPKRHLLTTGWSLFVSGKRLFAGDSVIFVR 242
>sp|Q8S983|ARFK_ORYSJ Auxin response factor 11 OS=Oryza sativa subsp. japonica GN=ARF11
PE=2 SV=1
Length = 955
Score = 107 bits (268), Expect = 7e-23, Method: Composition-based stats.
Identities = 74/209 (35%), Positives = 102/209 (48%), Gaps = 21/209 (10%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASV----SKAPPTFDLKPEIICRVA 102
N LW A AGP LP++G LV YFPQGH E A + S+ P +L +++C+V
Sbjct: 37 NSELWHACAGPLVCLPQRGSLVYYFPQGHSEQVAATTRKIPNSRIPNYPNLPSQLLCQVH 96
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYK 162
++ K TD+VY +MTL P+ + V G + + F K
Sbjct: 97 NITLHADKDTDEVYAQMTLQPVNS-----------ETDVFPIPTLGAYTKSKHPTEYFCK 145
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGK 219
L ASD S + + AE +FP LDY Q N +I +D+H W F + G+
Sbjct: 146 NLTASDTSTHGGFSVPRRAAEKLFP---QLDYSMQPPNQELIVRDLHDNMWTFRHIYRGQ 202
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+RH LT GW FV K L GD+V+FIR
Sbjct: 203 PKRHLLTTGWSLFVGAKRLKAGDSVLFIR 231
>sp|Q01K26|ARFK_ORYSI Auxin response factor 11 OS=Oryza sativa subsp. indica GN=ARF11
PE=2 SV=2
Length = 955
Score = 107 bits (268), Expect = 7e-23, Method: Composition-based stats.
Identities = 74/209 (35%), Positives = 102/209 (48%), Gaps = 21/209 (10%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASV----SKAPPTFDLKPEIICRVA 102
N LW A AGP LP++G LV YFPQGH E A + S+ P +L +++C+V
Sbjct: 37 NSELWHACAGPLVCLPQRGSLVYYFPQGHSEQVAATTRKIPNSRIPNYPNLPSQLLCQVH 96
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYK 162
++ K TD+VY +MTL P+ + V G + + F K
Sbjct: 97 NITLHADKDTDEVYAQMTLQPVNS-----------ETDVFPIPTLGAYTKSKHPTEYFCK 145
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGK 219
L ASD S + + AE +FP LDY Q N +I +D+H W F + G+
Sbjct: 146 NLTASDTSTHGGFSVPRRAAEKLFP---QLDYSMQPPNQELIVRDLHDNMWTFRHIYRGQ 202
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+RH LT GW FV K L GD+V+FIR
Sbjct: 203 PKRHLLTTGWSLFVGAKRLKAGDSVLFIR 231
>sp|Q6YVY0|ARFG_ORYSJ Auxin response factor 7 OS=Oryza sativa subsp. japonica GN=ARF7
PE=2 SV=1
Length = 678
Score = 107 bits (267), Expect = 8e-23, Method: Compositional matrix adjust.
Identities = 70/205 (34%), Positives = 99/205 (48%), Gaps = 21/205 (10%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGH---LEYSAPASVSKAPPTFDLKPEIICRVADVRY 106
LW A AGP ++P++G+LV YFPQGH LE S + + P F+L +I+C+V +V
Sbjct: 27 LWHACAGPLVTVPRQGELVYYFPQGHMEQLEASTDQQLDQHLPLFNLPSKILCKVVNVEL 86
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRA 166
+D+VY ++ L P + +L E N F K L A
Sbjct: 87 RAETDSDEVYAQIMLQP----------EADQNELTSPKPEPHEPEKCNVHS--FCKTLTA 134
Query: 167 SDQSKK-KIVIRAKDAENVFPFLAHLDYKKQINYS-VIAKDVHGVAWKFNFV-DGKSRRH 223
SD S + + AE P LD + + ++A+D+HG W F + G+ RRH
Sbjct: 135 SDTSTHGGFSVLRRHAEECLP---PLDMTQNPPWQELVARDLHGNEWHFRHIFRGQPRRH 191
Query: 224 YLTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV K LV GD IF+R
Sbjct: 192 LLTTGWSVFVSSKRLVAGDAFIFLR 216
>sp|Q6YZW0|ARFU_ORYSJ Auxin response factor 21 OS=Oryza sativa subsp. japonica GN=ARF21
PE=2 SV=2
Length = 1116
Score = 106 bits (265), Expect = 1e-22, Method: Composition-based stats.
Identities = 74/211 (35%), Positives = 105/211 (49%), Gaps = 18/211 (8%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPA----SVSKAPPTFDLKPEIICRVA 102
N LW A AGP SLP +G L+VYFPQGH E A + + ++ P +L ++IC +
Sbjct: 23 NQELWYACAGPLVSLPPQGSLIVYFPQGHSEQVAASMRKDADAQIPSYPNLPSKLICILH 82
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYK 162
V L TD+VY +MTL P+ + + + +L + R F K
Sbjct: 83 SVTMLADPDTDEVYARMTLQPVSNVTQCDKETLLASELALKQTR--------PQTEFFCK 134
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQINYSVI-AKDVHGVAWKFNFV-DGK 219
L ASD S + + AE +FP LD+ Q + A+D+H W F + G+
Sbjct: 135 TLTASDTSTHGGFSVPRRAAERIFP---RLDFSMQPPAQELQARDLHDNVWTFRHIYRGQ 191
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIRYA 250
+RH LT GW FV K L+ GD+V+FIR A
Sbjct: 192 PKRHLLTTGWSLFVSGKRLLAGDSVLFIRDA 222
>sp|Q5JK20|ARFD_ORYSJ Auxin response factor 4 OS=Oryza sativa subsp. japonica GN=ARF4
PE=2 SV=1
Length = 808
Score = 106 bits (265), Expect = 1e-22, Method: Composition-based stats.
Identities = 71/207 (34%), Positives = 105/207 (50%), Gaps = 22/207 (10%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPT----FDLKPEIICRVADVR 105
LW A AGP ++P+ GDLV YFPQGH+E AS+++ + +DL +++CRV +V
Sbjct: 25 LWHACAGPLVTVPRVGDLVFYFPQGHIE-QVEASMNQVADSQMRLYDLPSKLLCRVLNVE 83
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL--FYKK 163
+ TD+VY ++ L+P PE Q+ + K + PP+ F K
Sbjct: 84 LKAEQDTDEVYAQVMLMPEPE-----------QNEMAVEKTTPTSGPVQARPPVRSFCKT 132
Query: 164 LRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQINYSVIAKDVHGVAWKFNFV-DGKSR 221
L ASD S + + A+ P L + ++AKD+H + W+F + G+ R
Sbjct: 133 LTASDTSTHGGFSVLRRHADECLPPLDMT--QSPPTQELVAKDLHSMDWRFRHIFRGQPR 190
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH L GW FV K LV GD IF+R
Sbjct: 191 RHLLQSGWSVFVSSKRLVAGDAFIFLR 217
>sp|Q9AV47|ARFV_ORYSJ Auxin response factor 22 OS=Oryza sativa subsp. japonica GN=ARF22
PE=2 SV=1
Length = 698
Score = 106 bits (264), Expect = 2e-22, Method: Compositional matrix adjust.
Identities = 75/209 (35%), Positives = 101/209 (48%), Gaps = 19/209 (9%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPT----FDLKPEIICRVADVR 105
LW A AG +P V YF QGH E++ + A L P ++CRV V+
Sbjct: 17 LWHACAGGMVQMPAPRSRVYYFAQGHAEHADGGGGAAAAAAELGPRALPPLVLCRVEGVQ 76
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTP---PLFYK 162
+L + +D+VY K+ L P+ E + EL L G A +P F K
Sbjct: 77 FLADRDSDEVYAKIRLAPVAPGEAEFREPDELCPL------GAAGDAAEPSPEKPTSFAK 130
Query: 163 KLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SVIAKDVHGVAWKFNFV-DGK 219
L SD + + AE +FP LDY+ +V+AKDVHGV WKF + G
Sbjct: 131 TLTQSDANNGGGFSVPRYCAETIFP---KLDYRADPPVQTVLAKDVHGVVWKFRHIYRGT 187
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RRH LT GW FV QK LV GD+++F+R
Sbjct: 188 PRRHLLTTGWSTFVNQKKLVAGDSIVFLR 216
>sp|Q653H7|ARFR_ORYSJ Auxin response factor 18 OS=Oryza sativa subsp. japonica GN=ARF18
PE=2 SV=1
Length = 700
Score = 105 bits (263), Expect = 2e-22, Method: Compositional matrix adjust.
Identities = 73/205 (35%), Positives = 97/205 (47%), Gaps = 18/205 (8%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAP---PTFDLKPEIICRVADVRY 106
LW A AG +P V YFPQGH E++ P P + ++CRVA VR+
Sbjct: 24 LWHACAGGMVQMPPVSSKVYYFPQGHAEHAQ----GHGPVEFPGGRVPALVLCRVAGVRF 79
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKLRA 166
+ TD+V+ K+ L+P V N +G + P F K L
Sbjct: 80 MADPDTDEVFAKIRLVP----VRANEQGYAGDADDGIGAAAAA-AAQEEKPASFAKTLTQ 134
Query: 167 SDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINY-SVIAKDVHGVAWKFNFV-DGKSRRH 223
SD + + AE +FP LDY +V+AKDVHGV WKF + G RRH
Sbjct: 135 SDANNGGGFSVPRYCAETIFP---RLDYSADPPVQTVLAKDVHGVVWKFRHIYRGTPRRH 191
Query: 224 YLTVGWKYFVRQKNLVPGDTVIFIR 248
LT GW FV QK LV GD+++F+R
Sbjct: 192 LLTTGWSTFVNQKKLVAGDSIVFMR 216
>sp|Q9C5W9|ARFR_ARATH Auxin response factor 18 OS=Arabidopsis thaliana GN=ARF18 PE=2 SV=1
Length = 602
Score = 105 bits (262), Expect = 3e-22, Method: Compositional matrix adjust.
Identities = 73/224 (32%), Positives = 103/224 (45%), Gaps = 22/224 (9%)
Query: 32 DDLIFTEISDKDDDYNLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASV----SKA 87
DD + D LW+ AGP +P+ + V YFPQGH+E ++ S+
Sbjct: 8 DDFGSSSSRSYQDQLYTELWKVCAGPLVEVPRAQERVFYFPQGHMEQLVASTNQGINSEE 67
Query: 88 PPTFDLKPEIICRVADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRD 147
P FDL P+I+CRV DV +TD+VY ++TL P + + L +V +
Sbjct: 68 IPVFDLPPKILCRVLDVTLKAEHETDEVYAQITLQP----EEDQSEPTSLDPPIVGPTKQ 123
Query: 148 GEGSTANSTPPLFYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKD 205
S F K L ASD S + K A P LD + ++ +D
Sbjct: 124 EFHS--------FVKILTASDTSTHGGFSVLRKHATECLP---SLDMTQATPTQELVTRD 172
Query: 206 VHGVAWKFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+HG W+F + G+ RRH LT GW FV K LV GD +F+R
Sbjct: 173 LHGFEWRFKHIFRGQPRRHLLTTGWSTFVSSKRLVAGDAFVFLR 216
>sp|Q94JM3|ARFB_ARATH Auxin response factor 2 OS=Arabidopsis thaliana GN=ARF2 PE=1 SV=2
Length = 859
Score = 105 bits (261), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 76/212 (35%), Positives = 101/212 (47%), Gaps = 34/212 (16%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW A AGP ++P++ D V YFPQGH+E S + + P +DL +++CRV +V
Sbjct: 62 LWHACAGPLVTVPRQDDRVFYFPQGHIEQVEASTNQAAEQQMPLYDLPSKLLCRVINVDL 121
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPP------LF 160
TD+VY ++TLLP EN KE A PP F
Sbjct: 122 KAEADTDEVYAQITLLPEANQ-DENAIEKE----------------APLPPPPRFQVHSF 164
Query: 161 YKKLRASDQSKKK--IVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV- 216
K L ASD S V+R E + P LD +Q ++AKD+H W+F +
Sbjct: 165 CKTLTASDTSTHGGFSVLRRHADECLPP----LDMSRQPPTQELVAKDLHANEWRFRHIF 220
Query: 217 DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
G+ RRH L GW FV K LV GD IF+R
Sbjct: 221 RGQPRRHLLQSGWSVFVSSKRLVAGDAFIFLR 252
>sp|Q2QQX6|ARFX_ORYSJ Auxin response factor 24 OS=Oryza sativa subsp. japonica GN=ARF24
PE=2 SV=1
Length = 841
Score = 103 bits (257), Expect = 1e-21, Method: Composition-based stats.
Identities = 69/206 (33%), Positives = 102/206 (49%), Gaps = 9/206 (4%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY----SAPASVSKAPPTFDLKPEIICRVADVR 105
LW+A AGP ++P G+ V Y PQGH+E + + + P ++L +I C+V +V
Sbjct: 33 LWRACAGPLVTVPAVGERVFYLPQGHIEQVEASTNQVAEQQGAPLYNLPWKIPCKVMNVE 92
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGE-NFKGKELQDLVVDNKRDGEGSTANSTPPLFYKKL 164
TD+VY ++TLLP + G + G +D V + + +T F K L
Sbjct: 93 LKAEPDTDEVYAQLTLLPEKQQDGNGSGNGNVSKDKVEEEEVVPPAATERPRVHSFCKTL 152
Query: 165 RASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQINYSVIAKDVHGVAWKFNFV-DGKSRR 222
ASD S + + A+ P L + ++AKD+HGV W+F + G+ RR
Sbjct: 153 TASDTSTHGGFSVLRRHADECLPPLDMSQHPP--TQELVAKDLHGVEWRFRHIFRGQPRR 210
Query: 223 HYLTVGWKYFVRQKNLVPGDTVIFIR 248
H L GW FV K LV GD IF+R
Sbjct: 211 HLLQSGWSVFVSAKRLVAGDAFIFLR 236
>sp|Q6Z2W3|ARFE_ORYSJ Auxin response factor 5 OS=Oryza sativa subsp. japonica GN=ARF5
PE=2 SV=2
Length = 1142
Score = 102 bits (255), Expect = 2e-21, Method: Composition-based stats.
Identities = 79/212 (37%), Positives = 103/212 (48%), Gaps = 27/212 (12%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSK-----APPTFDLKPEIICRV 101
N LW A AGP SLP G LVVYFPQGH E A AS+ K P +L ++IC +
Sbjct: 42 NSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVA-ASMQKDVDAHVPSYPNLPSKLICLL 100
Query: 102 ADVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL-- 159
V TD+VY +MTL P+ N GKE + E + + P +
Sbjct: 101 HGVNLHADPDTDEVYAQMTLQPV------NTYGKEALQI-------SELALKQARPQMEF 147
Query: 160 FYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQINYSVI-AKDVHGVAWKFNFV- 216
F K L ASD S + + AE +FP LD+ Q + A+D+H W F +
Sbjct: 148 FCKTLTASDTSTHGGFSVPRRAAEKIFP---PLDFSMQPPAQELQARDIHDNVWTFRHIY 204
Query: 217 DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
G+ +RH LT GW FV K L GD+VI +R
Sbjct: 205 RGQPKRHLLTTGWSLFVSGKRLFAGDSVIVVR 236
>sp|Q2R3F5|ARFW_ORYSJ Auxin response factor 23 OS=Oryza sativa subsp. japonica GN=ARF23
PE=1 SV=2
Length = 853
Score = 100 bits (249), Expect = 9e-21, Method: Composition-based stats.
Identities = 72/209 (34%), Positives = 102/209 (48%), Gaps = 23/209 (11%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPT----FDLKPEIICRVADVR 105
LW A AGP ++P+ G+ V YFPQGH+E AS ++ ++L +I+C V +V
Sbjct: 42 LWSACAGPLVTVPRVGEKVFYFPQGHIE-QVEASTNQVGEQRMQLYNLPWKILCEVMNVE 100
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYK 162
TD+VY ++TLLP + K+ +D + A P F K
Sbjct: 101 LKAEPDTDEVYAQLTLLP---------ESKQQEDNGSTEEEVPSAPAAGHVRPRVHSFCK 151
Query: 163 KLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAWKFNFV-DGK 219
L ASD S + + A+ P LD +Q ++AKD+HGV W+F + G+
Sbjct: 152 TLTASDTSTHGGFSVLRRHADECLP---PLDMSRQPPTQELVAKDLHGVEWRFRHIFRGQ 208
Query: 220 SRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RRH L GW FV K LV GD IF+R
Sbjct: 209 PRRHLLQSGWSVFVSAKRLVAGDAFIFLR 237
>sp|A2ZET6|ARFW_ORYSI Auxin response factor 23 OS=Oryza sativa subsp. indica GN=ARF23
PE=2 SV=1
Length = 853
Score = 100 bits (249), Expect = 1e-20, Method: Composition-based stats.
Identities = 74/218 (33%), Positives = 104/218 (47%), Gaps = 41/218 (18%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPASVSKAPPT----FDLKPEIICRVADVR 105
LW A AGP ++P+ G+ V YFPQGH+E AS ++ ++L +I+C V +V
Sbjct: 42 LWSACAGPLVTVPRVGEKVFYFPQGHIE-QVEASTNQVGEQRMQLYNLPWKILCEVMNVE 100
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL------ 159
TD+VY ++TLLP EL+ +++ GST P
Sbjct: 101 LKAEPDTDEVYAQLTLLP------------ELK------QQEDNGSTEEEVPSAPAAGHV 142
Query: 160 ------FYKKLRASDQSKK-KIVIRAKDAENVFPFLAHLDYKKQ-INYSVIAKDVHGVAW 211
F K L ASD S + + A+ P LD +Q ++AKD+HGV W
Sbjct: 143 RPRVHSFCKTLTASDTSTHGGFSVLRRHADECLP---PLDMSRQPPTQELVAKDLHGVEW 199
Query: 212 KFNFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+F + G+ RRH L GW FV K LV GD IF+R
Sbjct: 200 RFRHIFRGQPRRHLLQSGWSVFVSAKRLVAGDAFIFLR 237
>sp|Q9XID4|ARFL_ARATH Auxin response factor 12 OS=Arabidopsis thaliana GN=ARF12 PE=2 SV=2
Length = 593
Score = 97.4 bits (241), Expect = 8e-20, Method: Compositional matrix adjust.
Identities = 66/207 (31%), Positives = 98/207 (47%), Gaps = 28/207 (13%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW+ AGP +PK G+ V YFPQGH+E S +++ P DL ++ CRV +
Sbjct: 28 LWKLCAGPLCDIPKLGEKVYYFPQGHIELVETSTREELNELQPICDLPSKLQCRVIAIHL 87
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYKK 163
V +D+ Y ++TL+P + +V+ + + N PL F K
Sbjct: 88 KVENNSDETYAEITLMP------------DTTQVVIPTQNE------NQFRPLVNSFTKV 129
Query: 164 LRASDQSKKKIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNF-VDGKSR 221
L ASD S K ++ L LD + + ++A D+HG W+FN G +
Sbjct: 130 LTASDTSAHGGFFVPK--KHAIECLPSLDMSQPLPAQELLAIDLHGNQWRFNHNYRGTPQ 187
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH LT GW F K LV GD ++F+R
Sbjct: 188 RHLLTTGWNAFTTSKKLVAGDVIVFVR 214
>sp|Q9C8N7|ARFV_ARATH Auxin response factor 22 OS=Arabidopsis thaliana GN=ARF22 PE=2 SV=2
Length = 598
Score = 97.1 bits (240), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 65/207 (31%), Positives = 100/207 (48%), Gaps = 30/207 (14%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW+ AGP +PK G+ + YFPQG++E S +++ P DL ++ CRV ++
Sbjct: 28 LWKLCAGPLCDIPKLGEKIYYFPQGNIELVEASTREELNELKPICDLPSKLQCRVIAIQL 87
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYKK 163
V +D+ Y ++TL+P + +V+ + + N PL F K
Sbjct: 88 KVENNSDETYAEITLMP------------DTTQVVIPTQNE------NQFRPLVNSFTKV 129
Query: 164 LRASDQSKKKIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNF-VDGKSR 221
L ASD S V + E + P LD + + ++A D+HG W+FN G +
Sbjct: 130 LTASDTSGGFFVPKKHAIECLPP----LDMSQPLPTQELLATDLHGNQWRFNHNYRGTPQ 185
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH LT GW F K LV GD ++F+R
Sbjct: 186 RHLLTTGWNAFTTSKKLVAGDVIVFVR 212
>sp|Q9LQE8|ARFN_ARATH Putative auxin response factor 14 OS=Arabidopsis thaliana GN=ARF14
PE=3 SV=2
Length = 605
Score = 97.1 bits (240), Expect = 1e-19, Method: Compositional matrix adjust.
Identities = 65/208 (31%), Positives = 99/208 (47%), Gaps = 30/208 (14%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW+ AGP +PK G+ V YFPQGH+E S +++ P D ++ CRV ++
Sbjct: 28 LWKLCAGPLCDIPKLGEKVYYFPQGHIELVEASTREELNELQPICDFPSKLQCRVIAIQL 87
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYKK 163
V +D+ Y ++TL+P + +V+ + N PL F K
Sbjct: 88 KVENNSDETYAEITLMP------------DTTQVVIPTQNQ------NQFRPLVNSFTKV 129
Query: 164 LRASDQS-KKKIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNFV-DGKS 220
L ASD S + K A P LD + + ++A D+HG W+F + G +
Sbjct: 130 LTASDTSVHGGFSVPKKHAIECLP---PLDMSQPLPTQEILAIDLHGNQWRFRHIYRGTA 186
Query: 221 RRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+RH LT+GW F K LV GD ++F+R
Sbjct: 187 QRHLLTIGWNAFTTSKKLVEGDVIVFVR 214
>sp|P93024|ARFE_ARATH Auxin response factor 5 OS=Arabidopsis thaliana GN=ARF5 PE=1 SV=3
Length = 902
Score = 96.3 bits (238), Expect = 2e-19, Method: Composition-based stats.
Identities = 72/216 (33%), Positives = 102/216 (47%), Gaps = 35/216 (16%)
Query: 47 NLLLWQAFAGPPPSLPKKGDLVVYFPQGHLEYSAPAS----VSKAPPTFDLKPEIICRVA 102
N LW A AGP LP+ G LV YF QGH E A ++ ++ P +L +++C+V
Sbjct: 52 NSELWHACAGPLVCLPQVGSLVYYFSQGHSEQVAVSTRRSATTQVPNYPNLPSQLMCQVH 111
Query: 103 DVRYLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRD-----GEGSTANSTP 157
+V K +D++Y +M+L P V ++RD G S
Sbjct: 112 NVTLHADKDSDEIYAQMSLQP------------------VHSERDVFPVPDFGMLRGSKH 153
Query: 158 P--LFYKKLRASDQSKKK-IVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKF 213
P F K L ASD S + + AE +FP LDY Q ++ +D+H W F
Sbjct: 154 PTEFFCKTLTASDTSTHGGFSVPRRAAEKLFP---PLDYSAQPPTQELVVRDLHENTWTF 210
Query: 214 NFV-DGKSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ G+ +RH LT GW FV K L GD+V+FIR
Sbjct: 211 RHIYRGQPKRHLLTTGWSLFVGSKRLRAGDSVLFIR 246
>sp|Q5NB85|ARFA_ORYSJ Auxin response factor 1 OS=Oryza sativa subsp. japonica GN=ARF1
PE=2 SV=1
Length = 699
Score = 93.6 bits (231), Expect = 1e-18, Method: Compositional matrix adjust.
Identities = 65/210 (30%), Positives = 99/210 (47%), Gaps = 29/210 (13%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY----SAPASVSKAPPTFDLKPEIICRVADVR 105
LW+A AGP +P++ + V YF QGHLE + PA +++ F + +I+C+V +V
Sbjct: 19 LWRACAGPLVEVPQRDERVFYFLQGHLEQLQEPTDPALLAEQIKMFQVPYKILCKVVNVE 78
Query: 106 YLVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTP-PL---FY 161
+TD+V+ ++TL P P+ +N P P+ F
Sbjct: 79 LKAETETDEVFAQITLQPDPDQ---------------ENLPTLPDPPLPEQPRPVVHSFC 123
Query: 162 KKLRASDQSKKK--IVIRAKDAENVFPFLAHLDYKKQINYSVIAKDVHGVAWKFNFV-DG 218
K L SD S V+R E + P + Q +I KD+HG W+F + G
Sbjct: 124 KILTPSDTSTHGGFSVLRRHANECLPPLDMSMATPTQ---ELITKDLHGSEWRFKHIYRG 180
Query: 219 KSRRHYLTVGWKYFVRQKNLVPGDTVIFIR 248
+ RRH LT GW FV K L+ GD +++R
Sbjct: 181 QPRRHLLTTGWSTFVTSKKLISGDAFVYLR 210
>sp|Q9FX25|ARFM_ARATH Auxin response factor 13 OS=Arabidopsis thaliana GN=ARF13 PE=2 SV=3
Length = 621
Score = 92.4 bits (228), Expect = 3e-18, Method: Compositional matrix adjust.
Identities = 69/210 (32%), Positives = 102/210 (48%), Gaps = 32/210 (15%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW AGP LPK G+ V YFPQGH+E S + P FDL ++ CRV +
Sbjct: 26 LWNICAGPLCVLPKPGEKVYYFPQGHIELIENSTRDELDHIRPIFDLPSKLRCRVVAIDR 85
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPLFY---KK 163
V K TD+VY +++L+P + +++ N +T ++ P+ Y K
Sbjct: 86 KVDKNTDEVYAQISLMP------------DTTEVMTHN------TTMDTRRPIVYFFSKI 127
Query: 164 LRASDQS-KKKIVIRAKDAENVFPFLAHLDYKKQIN-YSVIAKDVHGVAWKFNFV-DGKS 220
L ASD S ++I + A FP LD + I+ +++AKD++G W F V G
Sbjct: 128 LTASDVSLSGGLIIPKQYAIECFP---PLDMSQPISTQNLVAKDLYGQEWSFKHVFRGTP 184
Query: 221 RRHYLTV--GWKYFVRQKNLVPGDTVIFIR 248
+RH T GW F K L+ GD + +R
Sbjct: 185 QRHMFTSGGGWSVFATTKRLIVGDIFVLLR 214
>sp|Q9LQE3|ARFO_ARATH Putative auxin response factor 15 OS=Arabidopsis thaliana GN=ARF15
PE=3 SV=2
Length = 593
Score = 91.7 bits (226), Expect = 5e-18, Method: Compositional matrix adjust.
Identities = 65/207 (31%), Positives = 97/207 (46%), Gaps = 28/207 (13%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW+ AGP +PK G+ V YFPQG++E S +++ P DL ++ CRV +
Sbjct: 28 LWKLCAGPLCDIPKLGEKVYYFPQGNIELVEASTREELNELQPICDLPSKLQCRVIAIHL 87
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYKK 163
V +D+ Y K+TL+P + +V+ + + N PL F K
Sbjct: 88 KVENNSDETYAKITLMP------------DTTQVVIPTQNE------NQFRPLVNSFTKV 129
Query: 164 LRASDQSKKKIVIRAKDAENVFPFLAHLDYKKQI-NYSVIAKDVHGVAWKFNF-VDGKSR 221
L ASD S + K ++ L LD + + ++A D+HG W F G +
Sbjct: 130 LTASDISANGVFSVPK--KHAIECLPPLDMSQPLPAQELLAIDLHGNQWSFRHSYRGTPQ 187
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH LT GW F K LV GD ++F+R
Sbjct: 188 RHLLTTGWNEFTTSKKLVKGDVIVFVR 214
>sp|Q9C7I9|ARFT_ARATH Auxin response factor 20 OS=Arabidopsis thaliana GN=ARF20 PE=2 SV=3
Length = 590
Score = 90.5 bits (223), Expect = 1e-17, Method: Compositional matrix adjust.
Identities = 66/207 (31%), Positives = 98/207 (47%), Gaps = 32/207 (15%)
Query: 50 LWQAFAGPPPSLPKKGDLVVYFPQGHLEY---SAPASVSKAPPTFDLKPEIICRVADVRY 106
LW+ AGP +PK G+ V YFPQG++E S +++ P DL ++ CRV +
Sbjct: 28 LWKLCAGPLCDIPKLGENVYYFPQGNIELVDASTREELNELQPICDLPSKLQCRVIAIHL 87
Query: 107 LVSKKTDKVYTKMTLLPLPEMVGENFKGKELQDLVVDNKRDGEGSTANSTPPL---FYKK 163
V +D+ Y ++TL+P + +V+ + + N PL F K
Sbjct: 88 KVENNSDETYAEITLMP------------DTTQVVIPTQSE------NQFRPLVNSFTKV 129
Query: 164 LRASDQSK-KKIVIRAKDAENVFPFLAHLDYKKQINYSVIAKDVHGVAWKFNF-VDGKSR 221
L ASD S + K A P L L ++ ++AKD+HG W+F G +
Sbjct: 130 LTASDTSAYGGFFVPKKHAIECLPPLP-LPAQE-----LLAKDLHGNQWRFRHSYRGTPQ 183
Query: 222 RHYLTVGWKYFVRQKNLVPGDTVIFIR 248
RH LT GW F K LV GD ++F+R
Sbjct: 184 RHSLTTGWNEFTTSKKLVKGDVIVFVR 210
Database: swissprot
Posted date: Mar 23, 2013 2:32 AM
Number of letters in database: 191,569,459
Number of sequences in database: 539,616
Lambda K H
0.316 0.136 0.403
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 104,944,270
Number of Sequences: 539616
Number of extensions: 4799118
Number of successful extensions: 13579
Number of sequences better than 100.0: 50
Number of HSP's better than 100.0 without gapping: 77
Number of HSP's successfully gapped in prelim test: 51
Number of HSP's that attempted gapping in prelim test: 13313
Number of HSP's gapped (non-prelim): 157
length of query: 251
length of database: 191,569,459
effective HSP length: 115
effective length of query: 136
effective length of database: 129,513,619
effective search space: 17613852184
effective search space used: 17613852184
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: 60 (27.7 bits)