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= 040981
(211 letters)
Database: swissprot
539,616 sequences; 191,569,459 total letters
Searching..................................................done
>sp|P49173|NIP1_NICAL Probable aquaporin NIP-type OS=Nicotiana alata PE=2 SV=1
Length = 270
Score = 336 bits (861), Expect = 8e-92, Method: Compositional matrix adjust.
Identities = 158/208 (75%), Positives = 185/208 (88%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
+IAE IGTYF+IFAGCG+VAV+KIYG VTFPG+CVTWGLIVMVM+Y++ +ISGAHFNP V
Sbjct: 45 LIAEAIGTYFVIFAGCGSVAVNKIYGSVTFPGICVTWGLIVMVMVYTVGYISGAHFNPAV 104
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVAE 120
TI +IF +F W+QVPLYI+AQ++GS+LASGTL+L+ DVTPQAYFGTVPVGSN QS E
Sbjct: 105 TITFSIFGRFPWKQVPLYIIAQLMGSILASGTLALLFDVTPQAYFGTVPVGSNGQSLAIE 164
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
IIISFLLMFVISG TDDRAIGQ G+AVGMTI LNVFVAGPISGASMNPARSIGPAIVK
Sbjct: 165 IIISFLLMFVISGVATDDRAIGQVAGIAVGMTITLNVFVAGPISGASMNPARSIGPAIVK 224
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
H + G+W+Y++GP+IGT+ G F YNLI+
Sbjct: 225 HVYTGLWVYVVGPIIGTLAGAFVYNLIR 252
>sp|Q9FIZ9|NIP41_ARATH Putative aquaporin NIP4-1 OS=Arabidopsis thaliana GN=NIP4-1 PE=3
SV=1
Length = 283
Score = 303 bits (776), Expect = 5e-82, Method: Compositional matrix adjust.
Identities = 146/209 (69%), Positives = 175/209 (83%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG-KVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE+IGTYFI+F+GCG V V+ +YG +TFPG+CVTWGLIVMVMIYS HISGAHFNP
Sbjct: 45 LIAEMIGTYFIVFSGCGVVVVNVLYGGTITFPGICVTWGLIVMVMIYSTGHISGAHFNPA 104
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VT+ AIFR+F W QVPLYI AQ GSLLAS TL LM VTP+A+FGT P S A++ VA
Sbjct: 105 VTVTFAIFRRFPWHQVPLYIGAQFAGSLLASLTLRLMFKVTPEAFFGTTPADSPARALVA 164
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
EIIISFLLMFVISG TD+RA+G+ G+AVGMTIM+NVFVAGPISGASMNPARS+GPA+V
Sbjct: 165 EIIISFLLMFVISGVATDNRAVGELAGIAVGMTIMVNVFVAGPISGASMNPARSLGPALV 224
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
++ IW+YI+GPV+G ++GGF YNLI+
Sbjct: 225 MGVYKHIWVYIVGPVLGVISGGFVYNLIR 253
>sp|Q8W036|NIP42_ARATH Probable aquaporin NIP4-2 OS=Arabidopsis thaliana GN=NIP4-2 PE=2
SV=2
Length = 283
Score = 301 bits (772), Expect = 2e-81, Method: Compositional matrix adjust.
Identities = 145/209 (69%), Positives = 173/209 (82%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG-KVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE+IGTYFIIF+GCG V V+ +YG +TFPG+CVTWGLIVMVMIYS HISGAHFNP
Sbjct: 45 LIAEMIGTYFIIFSGCGVVVVNVLYGGTITFPGICVTWGLIVMVMIYSTGHISGAHFNPA 104
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VT+ A+FR+F W QVPLYI AQ+ GSLLAS TL LM +VTP+A+FGT P S+ Q+ VA
Sbjct: 105 VTVTFAVFRRFPWYQVPLYIGAQLTGSLLASLTLRLMFNVTPKAFFGTTPTDSSGQALVA 164
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
EIIISFLLMFVISG TD RA G+ G+AVGMTI+LNVFVAGPISGASMNPARS+GPAIV
Sbjct: 165 EIIISFLLMFVISGVATDSRATGELAGIAVGMTIILNVFVAGPISGASMNPARSLGPAIV 224
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
+++GIW+YI+GP +G GGF YN ++
Sbjct: 225 MGRYKGIWVYIVGPFVGIFAGGFVYNFMR 253
>sp|Q40746|NIP11_ORYSJ Aquaporin NIP1-1 OS=Oryza sativa subsp. japonica GN=NIP1-1 PE=2
SV=1
Length = 284
Score = 253 bits (646), Expect = 6e-67, Method: Compositional matrix adjust.
Identities = 126/209 (60%), Positives = 164/209 (78%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIY-GKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE+ GTYF+IFAGCGAV +++ G++TFPGV + WGL VMVM+Y++ HISGAHFNP
Sbjct: 50 IIAEIFGTYFLIFAGCGAVTINQSKNGQITFPGVAIVWGLAVMVMVYAVGHISGAHFNPA 109
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VT+A A R+F WRQVP Y AQ++G+ LA+GTL LM + + GT+P GS+ QS V
Sbjct: 110 VTLAFATCRRFPWRQVPAYAAAQMLGATLAAGTLRLMFGGRHEHFPGTLPAGSDVQSLVL 169
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
E II+F LMFVISG TD+RAIG+ G+AVG TI+LNV +AGPISGASMNPARS+GPA++
Sbjct: 170 EFIITFYLMFVISGVATDNRAIGELAGLAVGATILLNVLIAGPISGASMNPARSLGPAMI 229
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
++R IW+YI+GPV G V G +AYN+I+
Sbjct: 230 GGEYRSIWVYIVGPVAGAVAGAWAYNIIR 258
Score = 39.3 bits (90), Expect = 0.019, Method: Compositional matrix adjust.
Identities = 31/88 (35%), Positives = 48/88 (54%), Gaps = 6/88 (6%)
Query: 115 QSFVAEIIISFLLMFVISGAVT-DDRAIGQ--FGGVAV--GMTIMLNVFVAGPISGASMN 169
Q +AEI ++ L+F GAVT + GQ F GVA+ G+ +M+ V+ G ISGA N
Sbjct: 48 QKIIAEIFGTYFLIFAGCGAVTINQSKNGQITFPGVAIVWGLAVMVMVYAVGHISGAHFN 107
Query: 170 PARSIGPAIVKH-KFRGIWLYIIGPVIG 196
PA ++ A + +R + Y ++G
Sbjct: 108 PAVTLAFATCRRFPWRQVPAYAAAQMLG 135
>sp|Q8LFP7|NIP12_ARATH Aquaporin NIP1-2 OS=Arabidopsis thaliana GN=NIP1-2 PE=1 SV=2
Length = 294
Score = 249 bits (636), Expect = 9e-66, Method: Compositional matrix adjust.
Identities = 121/216 (56%), Positives = 163/216 (75%), Gaps = 8/216 (3%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGK-VTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
++AE++GTYF+IFAGC AVAV+ + K VT PG+ + WGL VMV++YSL HISGAHFNP
Sbjct: 54 LMAEVLGTYFLIFAGCAAVAVNTQHDKAVTLPGIAIVWGLTVMVLVYSLGHISGAHFNPA 113
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLML----DVTP---QAYFGTVPVGS 112
VTIA A +F +QVP Y+++QV+GS LA+ TL L+ DV + GT+P GS
Sbjct: 114 VTIAFASCGRFPLKQVPAYVISQVIGSTLAAATLRLLFGLDQDVCSGKHDVFVGTLPSGS 173
Query: 113 NAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
N QSFV E II+F LMFVISG TD+RAIG+ G+AVG T++LNV +AGP+SGASMNP R
Sbjct: 174 NLQSFVIEFIITFYLMFVISGVATDNRAIGELAGLAVGSTVLLNVIIAGPVSGASMNPGR 233
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
S+GPA+V +RG+W+YI+ P++G V+G + YN+++
Sbjct: 234 SLGPAMVYSCYRGLWIYIVSPIVGAVSGAWVYNMVR 269
>sp|Q0JPT5|NIP12_ORYSJ Aquaporin NIP1-2 OS=Oryza sativa subsp. japonica GN=NIP1-2 PE=2
SV=2
Length = 303
Score = 249 bits (635), Expect = 1e-65, Method: Compositional matrix adjust.
Identities = 118/215 (54%), Positives = 162/215 (75%), Gaps = 7/215 (3%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG-KVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
++AE++GTYF+IFAGCGAV V++ G VTFPG+C WGL+VMV++Y+++HISGAHFNP
Sbjct: 66 ILAEILGTYFMIFAGCGAVVVNQSTGGAVTFPGICAVWGLVVMVLVYTVSHISGAHFNPA 125
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVT------PQAYFGTVPVGSN 113
VT+A A +F+W+QVP Y+VAQV+GS +AS TL ++ +FGT P GS
Sbjct: 126 VTVAFATCGRFRWKQVPSYVVAQVLGSTMASLTLRVVFGGGGGGARGEHLFFGTTPAGSM 185
Query: 114 AQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARS 173
AQ+ E +ISF LMFV+SG TD+RAIG+ G+AVG T+ +NV AGP++GASMNPARS
Sbjct: 186 AQAAALEFVISFFLMFVVSGVATDNRAIGELAGLAVGATVAVNVLFAGPVTGASMNPARS 245
Query: 174 IGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
+GPA+V ++ G+W+Y+ PV GTV G +AYNL++
Sbjct: 246 LGPAMVAGRYGGVWVYVAAPVSGTVCGAWAYNLLR 280
>sp|P08995|NO26_SOYBN Nodulin-26 OS=Glycine max PE=1 SV=2
Length = 271
Score = 244 bits (622), Expect = 4e-64, Method: Compositional matrix adjust.
Identities = 109/209 (52%), Positives = 159/209 (76%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDK-IYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
++AE +GTYF+IFAGC ++ V++ Y +TFPG+ + WGL++ V++Y++ HISG HFNP
Sbjct: 40 LVAEAVGTYFLIFAGCASLVVNENYYNMITFPGIAIVWGLVLTVLVYTVGHISGGHFNPA 99
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VTIA A R+F QVP Y+VAQ++GS+LASGTL L+ + GTVP G+N Q+FV
Sbjct: 100 VTIAFASTRRFPLIQVPAYVVAQLLGSILASGTLRLLFMGNHDQFSGTVPNGTNLQAFVF 159
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
E I++F LMFVI G TD+RA+G+F G+A+G T++LNV + GP++GASMNPARS+GPA V
Sbjct: 160 EFIMTFFLMFVICGVATDNRAVGEFAGIAIGSTLLLNVIIGGPVTGASMNPARSLGPAFV 219
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
++ GIW+Y++ PV+G + G + YN+++
Sbjct: 220 HGEYEGIWIYLLAPVVGAIAGAWVYNIVR 248
>sp|Q0DK16|NIP13_ORYSJ Aquaporin NIP1-3 OS=Oryza sativa subsp. japonica GN=NIP1-3 PE=3
SV=2
Length = 286
Score = 243 bits (619), Expect = 9e-64, Method: Compositional matrix adjust.
Identities = 125/209 (59%), Positives = 157/209 (75%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG-KVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE++GT+F+IFAGC AVAV+K G VTFPG+C+TWGL VMVM+YS+ HISGAH NP
Sbjct: 56 VIAEILGTFFLIFAGCAAVAVNKRTGGTVTFPGICITWGLAVMVMVYSVGHISGAHLNPA 115
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VT+A A +F WR+VP Y AQV GS AS L + P+ +FGT P GS+ QS
Sbjct: 116 VTLAFATCGRFPWRRVPAYAAAQVAGSAAASAALRALFGGAPEHFFGTAPAGSDVQSLAM 175
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
E II+F LMFV+SG TD+RAIG+ G+AVG T+++NV AGPISGASMNPAR+IGPAI+
Sbjct: 176 EFIITFYLMFVVSGVATDNRAIGELAGLAVGATVLVNVLFAGPISGASMNPARTIGPAII 235
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
++ GIW+YI GPV G V G +AYNLI+
Sbjct: 236 LGRYTGIWVYIAGPVFGAVAGAWAYNLIR 264
Score = 38.1 bits (87), Expect = 0.050, Method: Compositional matrix adjust.
Identities = 24/63 (38%), Positives = 37/63 (58%), Gaps = 5/63 (7%)
Query: 114 AQSFVAEIIISFLLMFVISGAVTDDRAIG---QFGGVAV--GMTIMLNVFVAGPISGASM 168
AQ +AEI+ +F L+F AV ++ G F G+ + G+ +M+ V+ G ISGA +
Sbjct: 53 AQKVIAEILGTFFLIFAGCAAVAVNKRTGGTVTFPGICITWGLAVMVMVYSVGHISGAHL 112
Query: 169 NPA 171
NPA
Sbjct: 113 NPA 115
>sp|Q9ATN4|NIP11_MAIZE Aquaporin NIP1-1 OS=Zea mays GN=NIP1-1 PE=2 SV=1
Length = 282
Score = 239 bits (609), Expect = 1e-62, Method: Compositional matrix adjust.
Identities = 123/209 (58%), Positives = 163/209 (77%), Gaps = 1/209 (0%)
Query: 1 MIAELIGTYFIIFAGCGAVAVD-KIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE+ GTYF++FAGCGAV ++ G++TFPGV + WGL VMVM+Y++ HISGAHFNP
Sbjct: 46 IIAEIFGTYFLMFAGCGAVTINASKNGQITFPGVAIVWGLAVMVMVYAVGHISGAHFNPA 105
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
VT+A A +F WRQ+P Y++AQ++G+ LASGTL LM + + GT+P GS QS V
Sbjct: 106 VTLAFATSGRFPWRQLPAYVLAQMLGATLASGTLRLMFGGRHEHFPGTLPTGSEVQSLVI 165
Query: 120 EIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIV 179
EII +F LMFVISG TD+RAIG+ G+AVG TI+LNV +AGP+SGASMNPARS+GPA+V
Sbjct: 166 EIITTFYLMFVISGVATDNRAIGELAGLAVGATILLNVLIAGPVSGASMNPARSVGPALV 225
Query: 180 KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
++ IW+Y++GPV+G V G +AYNLI+
Sbjct: 226 SGEYTSIWVYVVGPVVGAVAGAWAYNLIR 254
Score = 41.2 bits (95), Expect = 0.005, Method: Compositional matrix adjust.
Identities = 32/88 (36%), Positives = 50/88 (56%), Gaps = 6/88 (6%)
Query: 115 QSFVAEIIISFLLMFVISGAVT-DDRAIGQ--FGGVAV--GMTIMLNVFVAGPISGASMN 169
Q +AEI ++ LMF GAVT + GQ F GVA+ G+ +M+ V+ G ISGA N
Sbjct: 44 QKIIAEIFGTYFLMFAGCGAVTINASKNGQITFPGVAIVWGLAVMVMVYAVGHISGAHFN 103
Query: 170 PARSIGPAIV-KHKFRGIWLYIIGPVIG 196
PA ++ A + +R + Y++ ++G
Sbjct: 104 PAVTLAFATSGRFPWRQLPAYVLAQMLG 131
>sp|Q9C6T0|NIP31_ARATH Aquaporin NIP3-1 OS=Arabidopsis thaliana GN=NIP3-1 PE=2 SV=2
Length = 323
Score = 225 bits (573), Expect = 2e-58, Method: Compositional matrix adjust.
Identities = 110/216 (50%), Positives = 150/216 (69%), Gaps = 8/216 (3%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGK-VTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+I E +GT+ +IFAGC A+ V++ YGK VT PG+ + WGL+V VMIYS+ H+SGAHFNP
Sbjct: 45 LIGEFVGTFTMIFAGCSAIVVNETYGKPVTLPGIALVWGLVVTVMIYSIGHVSGAHFNPA 104
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQA-------YFGTVPVGS 112
V+IA A ++F + QVP YI AQ++GS LA+ L L+ + Y GT P S
Sbjct: 105 VSIAFASSKKFPFNQVPGYIAAQLLGSTLAAAVLRLVFHLDDDVCSLKGDVYVGTYPSNS 164
Query: 113 NAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
N SFV E I +F LMFVIS TD RA G F G+A+G TI+L++ +GPISGASMNPAR
Sbjct: 165 NTTSFVMEFIATFNLMFVISAVATDKRATGSFAGIAIGATIVLDILFSGPISGASMNPAR 224
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
S+GPA++ ++ +WLYI+ PVIG ++G + Y L++
Sbjct: 225 SLGPALIWGCYKDLWLYIVSPVIGALSGAWTYGLLR 260
>sp|Q8VZW1|NIP11_ARATH Aquaporin NIP1-1 OS=Arabidopsis thaliana GN=NIP1-1 PE=1 SV=1
Length = 296
Score = 224 bits (571), Expect = 3e-58, Method: Compositional matrix adjust.
Identities = 106/216 (49%), Positives = 151/216 (69%), Gaps = 8/216 (3%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKV-TFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+IAE +GTYF++F GC +V V+ V T PG+ + WGL +MV+IYSL HISGAH NP
Sbjct: 57 LIAEFLGTYFLVFTGCASVVVNMQNDNVVTLPGIAIVWGLTIMVLIYSLGHISGAHINPA 116
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLML----DVTP---QAYFGTVPVGS 112
VTIA A +F +QVP Y+++QV+GS LA+ TL L+ DV + G+ PVGS
Sbjct: 117 VTIAFASCGRFPLKQVPAYVISQVIGSTLAAATLRLLFGLDHDVCSGKHDVFIGSSPVGS 176
Query: 113 NAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
+ Q+F E I++F LMF+ISG TD+RAIG+ G+A+G T++LNV +A P+S ASMNP R
Sbjct: 177 DLQAFTMEFIVTFYLMFIISGVATDNRAIGELAGLAIGSTVLLNVLIAAPVSSASMNPGR 236
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
S+GPA+V ++GIW+Y++ P +G + G + YN ++
Sbjct: 237 SLGPALVYGCYKGIWIYLVAPTLGAIAGAWVYNTVR 272
>sp|Q5Z9E2|NIP14_ORYSJ Aquaporin NIP1-4 OS=Oryza sativa subsp. japonica GN=NIP1-4 PE=2
SV=1
Length = 273
Score = 202 bits (514), Expect = 1e-51, Method: Compositional matrix adjust.
Identities = 108/211 (51%), Positives = 144/211 (68%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
++AE + T+F++FAG GA+ V++ G VTFPGV V WG VM M+Y++ H+SGAH NP V
Sbjct: 59 LLAEFLATFFLMFAGLGAITVEEKKGAVTFPGVAVAWGAAVMAMVYAVGHVSGAHLNPAV 118
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVAE 120
T+ A+ +F WR+ P Y +AQ + AS L LM T+P G++AQS V E
Sbjct: 119 TLGFAVAGRFPWRRAPAYALAQTAAATAASVVLRLMFGGRHAPVPATLPGGAHAQSLVIE 178
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
+I+F LMFVI TDD+A+G GVAVG TIMLNV AGP+SGASMNPARSIGPA+V
Sbjct: 179 FVITFYLMFVIMAVATDDQAVGHMAGVAVGGTIMLNVLFAGPVSGASMNPARSIGPALVG 238
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIKIHG 211
K+ +W+YI+GP G G +AY+LI++ G
Sbjct: 239 SKYTALWVYILGPFAGAAAGAWAYSLIRLTG 269
Score = 41.6 bits (96), Expect = 0.003, Method: Compositional matrix adjust.
Identities = 28/68 (41%), Positives = 40/68 (58%), Gaps = 4/68 (5%)
Query: 115 QSFVAEIIISFLLMFVISGAVTDDRAIG--QFGGVAV--GMTIMLNVFVAGPISGASMNP 170
Q +AE + +F LMF GA+T + G F GVAV G +M V+ G +SGA +NP
Sbjct: 57 QMLLAEFLATFFLMFAGLGAITVEEKKGAVTFPGVAVAWGAAVMAMVYAVGHVSGAHLNP 116
Query: 171 ARSIGPAI 178
A ++G A+
Sbjct: 117 AVTLGFAV 124
>sp|Q8W037|NIP21_ARATH Aquaporin NIP2-1 OS=Arabidopsis thaliana GN=NIP2-1 PE=2 SV=2
Length = 288
Score = 201 bits (511), Expect = 3e-51, Method: Compositional matrix adjust.
Identities = 99/215 (46%), Positives = 142/215 (66%), Gaps = 9/215 (4%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKV-TFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
++AEL+GTY++IFAGC A+AV+ + V T G+ V WG+++MV++Y L H+S AHFNP
Sbjct: 50 LLAELVGTYYLIFAGCAAIAVNAQHNHVVTLVGIAVVWGIVIMVLVYCLGHLS-AHFNPA 108
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQA-------YFGTVPVGS 112
VT+ALA ++F QVP YI QV+GS LAS TL L+ D+ + G+ P GS
Sbjct: 109 VTLALASSQRFPLNQVPAYITVQVIGSTLASATLRLLFDLNNDVCSKKHDVFLGSSPSGS 168
Query: 113 NAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
+ Q+FV E II+ LM V+ T R + G+ +G T+ LNV AG +SGASMNPAR
Sbjct: 169 DLQAFVMEFIITGFLMLVVCAVTTTKRTTEELEGLIIGATVTLNVIFAGEVSGASMNPAR 228
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
SIGPA+V ++GIW+Y++ P +G V+G + ++
Sbjct: 229 SIGPALVWGCYKGIWIYLLAPTLGAVSGALIHKML 263
>sp|Q9SAI4|NIP61_ARATH Aquaporin NIP6-1 OS=Arabidopsis thaliana GN=NIP6-1 PE=1 SV=1
Length = 305
Score = 182 bits (462), Expect = 1e-45, Method: Compositional matrix adjust.
Identities = 94/208 (45%), Positives = 131/208 (62%), Gaps = 2/208 (0%)
Query: 3 AELIGTYFIIFAGCGAVAVD-KIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE +GT +IFAG V+ K G T G + GL VM++I S HISGAH NP VT
Sbjct: 84 AEFVGTLILIFAGTATAIVNQKTDGAETLIGCAASAGLAVMIVILSTGHISGAHLNPAVT 143
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVAEI 121
IA A + F W+ VP+YI AQV+ S+ A+ L + + T TVP +Q+F E
Sbjct: 144 IAFAALKHFPWKHVPVYIGAQVMASVSAAFALKAVFEPTMSGGV-TVPTVGLSQAFALEF 202
Query: 122 IISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVKH 181
IISF LMFV++ TD RA+G+ G+AVG T+MLN+ +AGP + ASMNP R++GPAI +
Sbjct: 203 IISFNLMFVVTAVATDTRAVGELAGIAVGATVMLNILIAGPATSASMNPVRTLGPAIAAN 262
Query: 182 KFRGIWLYIIGPVIGTVTGGFAYNLIKI 209
+R IW+Y+ P++G + G Y ++K+
Sbjct: 263 NYRAIWVYLTAPILGALIGAGTYTIVKL 290
>sp|Q6Z2T3|NIP21_ORYSJ Aquaporin NIP2-1 OS=Oryza sativa subsp. japonica GN=NIP2-1 PE=1
SV=1
Length = 298
Score = 181 bits (460), Expect = 2e-45, Method: Compositional matrix adjust.
Identities = 91/212 (42%), Positives = 134/212 (63%), Gaps = 4/212 (1%)
Query: 1 MIAELIGTYFIIFAGCGAVAVD-KIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+++E++ T+ ++F CGA + +++ G + GLIV VMIY++ HISGAH NP
Sbjct: 51 VVSEVVATFLLVFMTCGAAGISGSDLSRISQLGQSIAGGLIVTVMIYAVGHISGAHMNPA 110
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV-PVGSNAQSFV 118
VT+A A+FR F W QVP Y AQ G++ AS L ++ P GT PVG + S V
Sbjct: 111 VTLAFAVFRHFPWIQVPFYWAAQFTGAICASFVLKAVIH--PVDVIGTTTPVGPHWHSLV 168
Query: 119 AEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAI 178
E+I++F +MFV TD RA+G+ G+AVG + + AG ISG SMNPAR++GPA+
Sbjct: 169 VEVIVTFNMMFVTLAVATDTRAVGELAGLAVGSAVCITSIFAGAISGGSMNPARTLGPAL 228
Query: 179 VKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
+KF G+W+Y +GPV+GT++G + Y I+
Sbjct: 229 ASNKFDGLWIYFLGPVMGTLSGAWTYTFIRFE 260
>sp|Q19KC1|NIP21_MAIZE Aquaporin NIP2-1 OS=Zea mays GN=NIP2-1 PE=2 SV=2
Length = 295
Score = 181 bits (458), Expect = 5e-45, Method: Compositional matrix adjust.
Identities = 94/212 (44%), Positives = 135/212 (63%), Gaps = 8/212 (3%)
Query: 1 MIAELIGTYFIIFAGCGAVAV---DKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFN 57
+++E++ T+ ++F CGA + DK +++ G V GLIV VMIY++ HISGAH N
Sbjct: 49 VVSEVVSTFLLVFVTCGAAGIYGSDK--DRISQLGQSVAGGLIVTVMIYAVGHISGAHMN 106
Query: 58 PGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV-PVGSNAQS 116
P VT+A A+FR F W QVP Y AQ GS+ AS L +L P A GT P G + S
Sbjct: 107 PAVTLAFAVFRHFPWIQVPFYWAAQFTGSICASFVLKAVLH--PIAVLGTTTPTGPHWHS 164
Query: 117 FVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGP 176
V EII++F +MFV TD RA+G+ G+AVG + + AG +SG SMNPAR++GP
Sbjct: 165 LVIEIIVTFNMMFVTLAVATDTRAVGELAGLAVGSAVCITSIFAGAVSGGSMNPARTLGP 224
Query: 177 AIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
A+ + + G+W+Y +GPV+GT++G + Y I+
Sbjct: 225 ALASNLYTGLWIYFLGPVLGTLSGAWTYTYIR 256
>sp|Q9ATN2|NIP22_MAIZE Aquaporin NIP2-2 OS=Zea mays GN=NIP2-2 PE=2 SV=1
Length = 294
Score = 177 bits (450), Expect = 3e-44, Method: Compositional matrix adjust.
Identities = 92/215 (42%), Positives = 134/215 (62%), Gaps = 10/215 (4%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG----KVTFPGVCVTWGLIVMVMIYSLAHISGAHF 56
+I+E++ T+ ++F CGA + IYG +++ G V GLIV VMIY+ HISGAH
Sbjct: 54 VISEVVATFLLVFVTCGAAS---IYGEDNRRISQLGQSVAGGLIVTVMIYATGHISGAHM 110
Query: 57 NPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV-PVGSNAQ 115
NP VT++ A FR F W QVP Y AQ G++ A+ L +L P A GT P G +
Sbjct: 111 NPAVTLSFACFRHFPWIQVPFYWAAQFTGAMCAAFVLKAVLH--PIAVIGTTTPSGPHWH 168
Query: 116 SFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIG 175
+ + EI+++F +MFV TD RA+G+ G+AVG + + AGP+SG SMNPAR++
Sbjct: 169 ALLIEIVVTFNMMFVTCAVATDSRAVGELAGLAVGSAVCITSIFAGPVSGGSMNPARTLA 228
Query: 176 PAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
PA+ + F G+W+Y +GPVIGT++G + Y I+
Sbjct: 229 PAVASNVFTGLWIYFLGPVIGTLSGAWVYTYIRFE 263
>sp|Q9AT74|NIP23_MAIZE Aquaporin NIP2-3 OS=Zea mays GN=NIP2-3 PE=2 SV=1
Length = 301
Score = 177 bits (449), Expect = 5e-44, Method: Compositional matrix adjust.
Identities = 91/215 (42%), Positives = 133/215 (61%), Gaps = 10/215 (4%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG----KVTFPGVCVTWGLIVMVMIYSLAHISGAHF 56
+I+E++ T+ ++F CGA + IYG +++ G V GLIV VMIY+ HISGAH
Sbjct: 57 VISEVVATFLLVFVTCGAAS---IYGEDNARISQLGQSVAGGLIVTVMIYATGHISGAHM 113
Query: 57 NPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV-PVGSNAQ 115
NP VT++ A FR F W QVP Y AQ G++ A+ L +L P A GT P G +
Sbjct: 114 NPAVTLSFACFRHFPWIQVPFYWAAQFTGAMCAAFVLKAVLQ--PIAVIGTTTPSGPHWH 171
Query: 116 SFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIG 175
+ EI+++F +MFV TD RA+G+ G+AVG + + AGP+SG SMNPAR++
Sbjct: 172 ALAIEIVVTFNMMFVTCAVATDSRAVGELAGLAVGSAVCITSIFAGPVSGGSMNPARTLA 231
Query: 176 PAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
PA+ + F G+W+Y +GPV+GT++G + Y I+
Sbjct: 232 PAVASNVFTGLWIYFLGPVVGTLSGAWVYTYIRFE 266
>sp|Q67WJ8|NIP22_ORYSJ Aquaporin NIP2-2 OS=Oryza sativa subsp. japonica GN=NIP2-2 PE=2
SV=1
Length = 298
Score = 175 bits (443), Expect = 2e-43, Method: Compositional matrix adjust.
Identities = 90/213 (42%), Positives = 133/213 (62%), Gaps = 10/213 (4%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG----KVTFPGVCVTWGLIVMVMIYSLAHISGAHF 56
+I+E++ T+ ++F CGA + IYG +++ G V GLIV VMIY+ HISGAH
Sbjct: 54 VISEVVATFLLVFVTCGAAS---IYGEDMKRISQLGQSVVGGLIVTVMIYATGHISGAHM 110
Query: 57 NPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV-PVGSNAQ 115
NP VT++ A FR F W QVP Y AQ G++ A+ L +L P GT P G +
Sbjct: 111 NPAVTLSFAFFRHFPWIQVPFYWAAQFTGAMCAAFVLRAVL--YPIEVLGTTTPTGPHWH 168
Query: 116 SFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIG 175
+ V EI+++F +MFV TD RA+G+ G+AVG + + AGP+SG SMNPAR++
Sbjct: 169 ALVIEIVVTFNMMFVTCAVATDSRAVGELAGLAVGSAVCITSIFAGPVSGGSMNPARTLA 228
Query: 176 PAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
PA+ + + G+W+Y +GPV+GT++G + Y I+
Sbjct: 229 PAVASNVYTGLWIYFLGPVVGTLSGAWVYTYIR 261
Score = 45.1 bits (105), Expect = 3e-04, Method: Compositional matrix adjust.
Identities = 27/86 (31%), Positives = 47/86 (54%), Gaps = 5/86 (5%)
Query: 101 PQAYFGTVPVGSNAQSFVAEIIISFLLMFVISGAVT----DDRAIGQFGGVAV-GMTIML 155
P+ F + + + ++E++ +FLL+FV GA + D + I Q G V G+ + +
Sbjct: 38 PEKSFADIFPPNLLKKVISEVVATFLLVFVTCGAASIYGEDMKRISQLGQSVVGGLIVTV 97
Query: 156 NVFVAGPISGASMNPARSIGPAIVKH 181
++ G ISGA MNPA ++ A +H
Sbjct: 98 MIYATGHISGAHMNPAVTLSFAFFRH 123
>sp|Q9SV84|NIP51_ARATH Probable aquaporin NIP5-1 OS=Arabidopsis thaliana GN=NIP5-1 PE=2
SV=1
Length = 304
Score = 173 bits (439), Expect = 6e-43, Method: Compositional matrix adjust.
Identities = 92/210 (43%), Positives = 128/210 (60%), Gaps = 4/210 (1%)
Query: 3 AELIGTYFIIF-AGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE +GT+ +IF A G + K G T G GL VM++I S HISGAH NP +T
Sbjct: 82 AEFVGTFILIFTATAGPIVNQKYDGAETLIGNAACAGLAVMIIILSTGHISGAHLNPSLT 141
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFG-TVPVGSNAQSFVAE 120
IA A R F W VP YI AQV S+ AS L + P G T+P S Q+F E
Sbjct: 142 IAFAALRHFPWAHVPAYIAAQVSASICASFALKGVFH--PFMSGGVTIPSVSLGQAFALE 199
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
II+F+L+FV++ TD RA+G+ G+AVG T+MLN+ VAGP +G SMNP R++GPA+
Sbjct: 200 FIITFILLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSTGGSMNPVRTLGPAVAS 259
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
+R +W+Y++ P +G ++G Y +K++
Sbjct: 260 GNYRSLWVYLVAPTLGAISGAAVYTGVKLN 289
>sp|Q0IWF3|NIP31_ORYSJ Aquaporin NIP3-1 OS=Oryza sativa subsp. japonica GN=NIP3-1 PE=2
SV=2
Length = 311
Score = 166 bits (421), Expect = 8e-41, Method: Compositional matrix adjust.
Identities = 89/212 (41%), Positives = 122/212 (57%), Gaps = 6/212 (2%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGKVTFP-GVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE +GT+ +IF A V++ YG P G GL V +I S HISGAH NP +T
Sbjct: 87 AEFVGTFILIFFATAAPIVNQKYGGAISPFGNAACAGLAVTTIILSTGHISGAHLNPSLT 146
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV---PVGSNAQSFV 118
IA A R F W QVP Y+ QV+GS+ A L + P G P S AQ+F
Sbjct: 147 IAFAALRHFPWLQVPAYVAVQVLGSICAGFALKGVFH--PFLSGGVTVPDPTISTAQAFF 204
Query: 119 AEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAI 178
E II+F L+FV++ TD RA+G+ G+AVG + LN+ +AGP +G SMNP R++GPA+
Sbjct: 205 TEFIITFNLLFVVTAVATDTRAVGELAGIAVGAAVTLNILIAGPTTGGSMNPVRTLGPAV 264
Query: 179 VKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
+R +W+Y+I P +G V G Y +K+
Sbjct: 265 AAGNYRQLWIYLIAPTLGAVAGAGVYTAVKLR 296
>sp|Q9ATN1|NIP31_MAIZE Aquaporin NIP3-1 OS=Zea mays GN=NIP3-1 PE=2 SV=1
Length = 302
Score = 164 bits (415), Expect = 4e-40, Method: Compositional matrix adjust.
Identities = 89/212 (41%), Positives = 123/212 (58%), Gaps = 6/212 (2%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGKVTFP-GVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE +GT+ +IF A V++ YG P G GL V +I S HISGAH NP +T
Sbjct: 78 AEFVGTFILIFFATAAPIVNQKYGGAISPFGNAACAGLAVATVILSTGHISGAHLNPSLT 137
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFG-TVPVG--SNAQSFV 118
IA A R F W QVP Y+ Q + S+ A+ L + P G TVP S AQ+F
Sbjct: 138 IAFAALRHFPWLQVPAYVAVQALASVCAAFALKGVFH--PFLSGGVTVPDATVSTAQAFF 195
Query: 119 AEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAI 178
E IISF L+FV++ TD RA+G+ G+AVG + LN+ VAGP +G SMNP R++GPA+
Sbjct: 196 TEFIISFNLLFVVTAVATDTRAVGELAGIAVGAAVTLNILVAGPTTGGSMNPVRTLGPAV 255
Query: 179 VKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIH 210
+R +W+Y++ P +G + G Y +K+
Sbjct: 256 AAGNYRQLWIYLLAPTLGALAGASVYKAVKLR 287
>sp|Q8LAI1|NIP71_ARATH Probable aquaporin NIP7-1 OS=Arabidopsis thaliana GN=NIP7-1 PE=2
SV=2
Length = 275
Score = 146 bits (368), Expect = 1e-34, Method: Compositional matrix adjust.
Identities = 84/211 (39%), Positives = 123/211 (58%), Gaps = 3/211 (1%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYG-KVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
++AEL+GT+ ++F+ CG ++ ++ G V VT GL V+V++YS+ HISGAH NP
Sbjct: 48 VMAELVGTFILMFSVCGVISSTQLSGGHVGLLEYAVTAGLSVVVVVYSIGHISGAHLNPS 107
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSFVA 119
+TIA A+F F W QVPLYI AQ +G+ A+ + V T P S +F
Sbjct: 108 ITIAFAVFGGFPWSQVPLYITAQTLGATAATLVGVSVYGVNAD-IMATKPALSCVSAFFV 166
Query: 120 EIIISFLLMFVISG-AVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAI 178
E+I + +++F+ S + +G G +G I L V + GPISG SMNPARS+GPA+
Sbjct: 167 ELIATSIVVFLASALHCGPHQNLGNLTGFVIGTVISLGVLITGPISGGSMNPARSLGPAV 226
Query: 179 VKHKFRGIWLYIIGPVIGTVTGGFAYNLIKI 209
V F +W+Y+ PVIG + G Y I +
Sbjct: 227 VAWDFEDLWIYMTAPVIGAIIGVLTYRSISL 257
>sp|Q9ASI1|NIP41_ORYSJ Aquaporin NIP4-1 OS=Oryza sativa subsp. japonica GN=NIP4-1 PE=2
SV=1
Length = 286
Score = 144 bits (362), Expect = 6e-34, Method: Compositional matrix adjust.
Identities = 76/209 (36%), Positives = 126/209 (60%), Gaps = 6/209 (2%)
Query: 4 ELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVTIA 63
E + ++ ++F C A + ++YG +TFP VC+ ++ M + + L+ + AHFNP VTI
Sbjct: 62 EGLASFLVVFWSCVAALMQEMYGTLTFPMVCL---VVAMTVAFVLSWLGPAHFNPAVTIT 118
Query: 64 LAIFRQFK-WRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQS--FVAE 120
A +R+F W ++PLY+ AQ+ GSLLA +++ ++ ++GT PV + F+ E
Sbjct: 119 FAAYRRFPVWPKLPLYVAAQLAGSLLACLSVNAVMRPRHDHFYGTAPVVVHGTRLPFLME 178
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
+ S +LM VI+ TD A GG+A+G + V GP+SG SMNPAR++GPAIV
Sbjct: 179 FLASAVLMIVIATVATDGTAGKTVGGIAIGAAVGGLGLVIGPVSGGSMNPARTLGPAIVL 238
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIKI 209
++ G+W+Y++ PV G + G +++
Sbjct: 239 GRYDGVWIYVVAPVAGMLVGALCNRAVRL 267
>sp|Q84S07|NIP33_ORYSJ Aquaporin NIP3-3 OS=Oryza sativa subsp. japonica GN=NIP3-3 PE=2
SV=1
Length = 278
Score = 143 bits (360), Expect = 1e-33, Method: Compositional matrix adjust.
Identities = 81/209 (38%), Positives = 124/209 (59%), Gaps = 4/209 (1%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGKV-TFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE GT+ +IF + +D+ + + T G+ + GL V V++ SL HISG H NP ++
Sbjct: 72 AEFFGTFILIFTVLSTIIMDEQHKSIETLLGIATSAGLAVTVLVLSLIHISGCHLNPAIS 131
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLS-LMLDVTPQAYFGTVPVGSNAQSFVAE 120
IA+A+F + YI +Q++G++ AS + L V P TVP ++F E
Sbjct: 132 IAMAVFGHLPSAHLLPYISSQILGAVAASFAVKGLYHPVNPGIV--TVPNVGTVEAFFVE 189
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
II+F L+F+I+ TD A+ + VAVG T+M+N+ VAGP +GASMNPAR+IG AI
Sbjct: 190 FIITFFLLFIITALATDPNAVKELIAVAVGATVMMNILVAGPSTGASMNPARTIGAAIAT 249
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIKI 209
++ IW+Y++ +G + G AY IK+
Sbjct: 250 GRYTQIWVYLVATPLGAIAGTGAYVAIKL 278
>sp|Q7EYH7|NIP32_ORYSJ Aquaporin NIP3-2 OS=Oryza sativa subsp. japonica GN=NIP3-2 PE=2
SV=1
Length = 305
Score = 140 bits (352), Expect = 8e-33, Method: Compositional matrix adjust.
Identities = 82/209 (39%), Positives = 122/209 (58%), Gaps = 4/209 (1%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIY-GKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVT 61
AE GT+ +IF + +D+ + G + G+ + GL V V++ SL HISG H NP V+
Sbjct: 99 AEFFGTFTLIFTVLSTIIMDEQHKGVESLLGIATSAGLAVTVLVLSLIHISGCHLNPAVS 158
Query: 62 IALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLD-VTPQAYFGTVPVGSNAQSFVAE 120
IA+ +F + YI AQ++GS+ AS + M V P TVP ++F E
Sbjct: 159 IAMTVFGHLPPAHLLPYIAAQILGSITASFAVKGMYHPVNPGIV--TVPKVGTVEAFFLE 216
Query: 121 IIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIGPAIVK 180
+ +F+L+F+I+ TD A+ + VAVG TIM+N VAGP +GASMNPAR++GPAI
Sbjct: 217 FVTTFVLLFIITALATDPNAVKELIAVAVGATIMMNALVAGPSTGASMNPARTLGPAIAT 276
Query: 181 HKFRGIWLYIIGPVIGTVTGGFAYNLIKI 209
++ IW+Y++ +G V G Y IK+
Sbjct: 277 GRYTQIWVYLVATPLGAVAGEGFYFAIKL 305
>sp|Q7W917|AQPZ_BORPA Aquaporin Z OS=Bordetella parapertussis (strain 12822 / ATCC
BAA-587 / NCTC 13253) GN=aqpZ PE=3 SV=1
Length = 236
Score = 130 bits (327), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 81/223 (36%), Positives = 126/223 (56%), Gaps = 21/223 (9%)
Query: 3 AELIGTYFIIFAGCG----AVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
AE GT++++ GCG A V ++ + + GV + +GL V+ M Y++ HISG HFNP
Sbjct: 10 AEFFGTFWLVLGGCGSAVLAAGVPQV--GIGYAGVALAFGLTVLTMAYAVGHISGGHFNP 67
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLM------LDVTPQAY----FGTV 108
VT+ LA +F WR VP YIVAQVVG+++A+ TL+ + D+ + +G
Sbjct: 68 AVTVGLAASGRFGWRDVPPYIVAQVVGAIVAAATLASIAQGVAGFDLVASKFAANGYGDH 127
Query: 109 PVG--SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGA 166
G S + + EI++S +FVI GA TD RA F + +G+ + L ++ P++
Sbjct: 128 SPGKYSMQAALICEIVLSAGFVFVILGA-TDKRAPAGFAPIPIGLALTLIHLISIPVTNT 186
Query: 167 SMNPARSIGPAIV--KHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
S+NPARS GPA+ +WL+ + P+ G + G AY L+
Sbjct: 187 SVNPARSTGPALFVGGWALEQLWLFWLAPIAGALVGALAYRLV 229
>sp|Q7WKG2|AQPZ_BORBR Aquaporin Z OS=Bordetella bronchiseptica (strain ATCC BAA-588 /
NCTC 13252 / RB50) GN=aqpZ PE=3 SV=1
Length = 236
Score = 130 bits (327), Expect = 7e-30, Method: Compositional matrix adjust.
Identities = 81/223 (36%), Positives = 126/223 (56%), Gaps = 21/223 (9%)
Query: 3 AELIGTYFIIFAGCG----AVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
AE GT++++ GCG A V ++ + + GV + +GL V+ M Y++ HISG HFNP
Sbjct: 10 AEFFGTFWLVLGGCGSAVLAAGVPQV--GIGYAGVALAFGLTVLTMAYAVGHISGGHFNP 67
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLM------LDVTPQAY----FGTV 108
VT+ LA +F WR VP YIVAQVVG+++A+ TL+ + D+ + +G
Sbjct: 68 AVTVGLAASGRFGWRDVPPYIVAQVVGAIVAAATLASIAQGVAGFDLVASKFAANGYGDH 127
Query: 109 PVG--SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGA 166
G S + + EI++S +FVI GA TD RA F + +G+ + L ++ P++
Sbjct: 128 SPGKYSMQAALICEIVLSAGFVFVILGA-TDKRAPAGFAPIPIGLALTLIHLISIPVTNT 186
Query: 167 SMNPARSIGPAIV--KHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
S+NPARS GPA+ +WL+ + P+ G + G AY L+
Sbjct: 187 SVNPARSTGPALFVGGWALEQLWLFWLAPIAGALVGALAYRLV 229
>sp|Q7MIV9|AQPZ_VIBVY Aquaporin Z OS=Vibrio vulnificus (strain YJ016) GN=aqpZ PE=3 SV=1
Length = 231
Score = 115 bits (287), Expect = 3e-25, Method: Compositional matrix adjust.
Identities = 74/223 (33%), Positives = 123/223 (55%), Gaps = 17/223 (7%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+AEL GT++++ GCG+ + + V GV + +GL V+ M +++ HISG H NP
Sbjct: 5 LAELFGTFWLVLGGCGSAVLAAAFPDVGIGLLGVSLAFGLTVLTMAFAIGHISGCHLNPA 64
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTL------SLMLDVTPQAY----FGTVP 109
VTI L +F+ +++ YI+AQV+G ++A G L + D T + +G
Sbjct: 65 VTIGLWAGGRFEAKEIVPYILAQVIGGVIAGGVLYTIASGQMGFDATSSGFASNGYGEHS 124
Query: 110 VG--SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGAS 167
G S + V EI+++ + + VI GA TD RA F +A+G+ + L ++ P++ S
Sbjct: 125 PGGYSLTSALVTEIVMAMMFLLVILGA-TDQRAPQGFAPIAIGLCLTLIHLISIPVTNTS 183
Query: 168 MNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYNLIK 208
+NPARS G A+ + +WL+ + P++G + G AY LI
Sbjct: 184 VNPARSTGVALYVGDWATAQLWLFWVAPILGALLGAVAYKLIS 226
>sp|Q8DB17|AQPZ_VIBVU Aquaporin Z OS=Vibrio vulnificus (strain CMCP6) GN=aqpZ PE=3 SV=1
Length = 231
Score = 114 bits (286), Expect = 4e-25, Method: Compositional matrix adjust.
Identities = 73/223 (32%), Positives = 123/223 (55%), Gaps = 17/223 (7%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+AEL GT++++ GCG+ + + V GV + +GL V+ M +++ HISG H NP
Sbjct: 5 LAELFGTFWLVLGGCGSAVLAAAFPDVGIGLLGVSLAFGLTVLTMAFAIGHISGCHLNPA 64
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTL------SLMLDVTPQAY----FGTVP 109
VTI L +F+ +++ YI+AQV+G ++A G L + D T + +G
Sbjct: 65 VTIGLWAGGRFEAKEIVPYILAQVIGGVIAGGVLYTIASGQMGFDATSSGFASNGYGEHS 124
Query: 110 VG--SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGAS 167
G S + V E++++ + + VI GA TD RA F +A+G+ + L ++ P++ S
Sbjct: 125 PGGYSLTSALVTEVVMTMMFLLVILGA-TDQRAPQGFAPIAIGLCLTLIHLISIPVTNTS 183
Query: 168 MNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYNLIK 208
+NPARS G A+ + +WL+ + P++G + G AY LI
Sbjct: 184 VNPARSTGVALYVGDWATAQLWLFWVAPILGALLGAVAYKLIS 226
>sp|Q88F17|AQPZ_PSEPK Aquaporin Z OS=Pseudomonas putida (strain KT2440) GN=aqpZ PE=3 SV=1
Length = 230
Score = 114 bits (285), Expect = 5e-25, Method: Compositional matrix adjust.
Identities = 73/220 (33%), Positives = 122/220 (55%), Gaps = 17/220 (7%)
Query: 1 MIAELIGTYFIIFAGCGA--VAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
M AELIGT++++ GCG+ +A G + GV +GL V+ M +++ HISG H NP
Sbjct: 7 MGAELIGTFWLVLGGCGSAVLAASSPLG-IGVLGVAFAFGLTVLTMAFAIGHISGCHLNP 65
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLD----------VTPQAYFGTV 108
V+ L + +F +++ Y++AQV+G++LA+G + L+ + Y
Sbjct: 66 AVSFGLVVGGRFPAKELLPYVIAQVIGAILAAGVIYLIASGKAGFELSAGLASNGYADHS 125
Query: 109 PVGSN-AQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGAS 167
P G FV+E++++ + + VI GA TD RA F +A+G+ + L ++ P++ S
Sbjct: 126 PGGYTLGAGFVSEVVMTAMFLVVIMGA-TDARAPAGFAPIAIGLALTLIHLISIPVTNTS 184
Query: 168 MNPARSIGPAIV--KHKFRGIWLYIIGPVIGTVTGGFAYN 205
+NPARS GPA+ + +WL+ + P+IG GG Y
Sbjct: 185 VNPARSTGPALFVGGWALQQLWLFWVAPLIGAAIGGALYR 224
>sp|Q89EG9|AQPZ_BRAJA Aquaporin Z OS=Bradyrhizobium japonicum (strain USDA 110) GN=aqpZ
PE=3 SV=1
Length = 240
Score = 113 bits (283), Expect = 7e-25, Method: Compositional matrix adjust.
Identities = 74/221 (33%), Positives = 122/221 (55%), Gaps = 16/221 (7%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
AE IGT+++ FAGCG+ + + +V GV + +GL V+ M Y++ HISG H NP V
Sbjct: 8 AEAIGTFWLTFAGCGSAVIAAGFPQVGIGLVGVSLAFGLSVVTMAYAIGHISGCHLNPAV 67
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTP--QAYFGTVPVGSNAQS-- 116
T+ LA +F Q+ Y++AQV G+++A+ L ++ P G G +A S
Sbjct: 68 TVGLAAGGRFPAGQILPYVIAQVCGAIVAAELLYIIASGAPGFDVTKGFASNGYDAHSPG 127
Query: 117 -------FVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMN 169
F+ E++++ + +F+I GA T RA F +A+G+ +++ V+ P++ S+N
Sbjct: 128 QYSMMACFLTEVVMTMMFLFIIMGA-THGRAPAGFAPLAIGLALVMIHLVSIPVTNTSVN 186
Query: 170 PARSIGPAIV--KHKFRGIWLYIIGPVIGTVTGGFAYNLIK 208
PARS GPA+ +WL+ + P+IG GG Y +
Sbjct: 187 PARSTGPALFVGGWAMAQLWLFWVAPLIGGALGGVIYRWLS 227
>sp|Q7N5C1|AQPZ_PHOLL Aquaporin Z OS=Photorhabdus luminescens subsp. laumondii (strain
TT01) GN=aqpZ PE=3 SV=1
Length = 231
Score = 113 bits (282), Expect = 9e-25, Method: Compositional matrix adjust.
Identities = 83/223 (37%), Positives = 132/223 (59%), Gaps = 17/223 (7%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGK--VTFPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
+ AEL+GT+ ++F GCG+V + + + F GV + +GL V+ MIY++ HISG HFNP
Sbjct: 5 LAAELLGTFVLVFGGCGSVVFAAAFPELGIGFVGVSLAFGLTVLTMIYAVGHISGGHFNP 64
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLM------LDVTPQAY----FGT- 107
VTI L +F+ +V YI++QV+G +LA+ L ++ D T + FG
Sbjct: 65 AVTIGLWAGGRFRAVEVIPYIISQVIGGILAAAVLYVIASGQVGFDATTSGFASNGFGEH 124
Query: 108 VPVGSNAQS-FVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGA 166
P G + QS VAEI+++ + + VI GA TD RA F +A+G+ ++L ++ PI+
Sbjct: 125 SPGGFSLQSAIVAEIVLTAIFLIVIIGA-TDRRAPPGFAPLAIGLALVLINLISIPITNT 183
Query: 167 SMNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYNLI 207
S+NPARS AI ++ + +W + + P+IG + GG Y L+
Sbjct: 184 SVNPARSTAVAIFQNTWALEQLWFFWVMPIIGGIVGGGIYRLL 226
Score = 35.4 bits (80), Expect = 0.31, Method: Compositional matrix adjust.
Identities = 29/90 (32%), Positives = 47/90 (52%), Gaps = 9/90 (10%)
Query: 115 QSFVAEIIISFLLMFVISGAVTDDRAIGQFG------GVAVGMTIMLNVFVAGPISGASM 168
+ AE++ +F+L+F G+V A + G +A G+T++ ++ G ISG
Sbjct: 3 RKLAAELLGTFVLVFGGCGSVVFAAAFPELGIGFVGVSLAFGLTVLTMIYAVGHISGGHF 62
Query: 169 NPARSIGPAIVKHKFRGIWL--YIIGPVIG 196
NPA +IG +FR + + YII VIG
Sbjct: 63 NPAVTIG-LWAGGRFRAVEVIPYIISQVIG 91
>sp|Q9V5Z7|AQP_DROME Aquaporin OS=Drosophila melanogaster GN=Drip PE=2 SV=2
Length = 245
Score = 112 bits (280), Expect = 2e-24, Method: Compositional matrix adjust.
Identities = 73/212 (34%), Positives = 113/212 (53%), Gaps = 12/212 (5%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
++ EL+GT+F+IF G G+ + P + T+GL V + L H+SG H NP V
Sbjct: 26 LLGELVGTFFLIFVGVGSTTSGSV------PQIAFTFGLTVATIAQGLGHLSGCHINPAV 79
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV---PVGSNAQSF 117
T+ I + + YI+ Q VG++ + + + LD G P + AQ+
Sbjct: 80 TLGFLIVGEISILKAAFYIIVQCVGAIAGAAVIKVALDGVAGGDLGVSSFDPSLNCAQAV 139
Query: 118 VAEIIISFLLMFVISGAVTD--DRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPARSIG 175
+ E +I+F+L+FV+ AV+D + I +AVG+ I A +SGASMNPARS G
Sbjct: 140 LIEALITFILVFVVK-AVSDPGRQDIKGSAPLAVGLAIAAGHLCAIKLSGASMNPARSFG 198
Query: 176 PAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
PA+V+ + W+Y +GP+ G + G Y LI
Sbjct: 199 PAVVQGVWTYHWVYWVGPIAGGLLAGIIYRLI 230
>sp|Q9ATL3|TIP44_MAIZE Aquaporin TIP4-4 OS=Zea mays GN=TIP4-4 PE=2 SV=1
Length = 252
Score = 110 bits (275), Expect = 7e-24, Method: Compositional matrix adjust.
Identities = 78/213 (36%), Positives = 115/213 (53%), Gaps = 8/213 (3%)
Query: 1 MIAELIGTYFIIFAGCG-AVAVDKIYGK-----VTFPGVCVTWGLIVMVMIYSLAHISGA 54
++AELI T+ +FAG G A+A K+ G V V + L+V VM+ + H+SG
Sbjct: 21 VLAELILTFLFVFAGVGSAMATGKLAGGGGDTVVGLTAVALAHTLVVAVMVSAGLHVSGG 80
Query: 55 HFNPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNA 114
H NP VT+ LA + + LY+ AQ++GS LA L+ + + G A
Sbjct: 81 HINPAVTLGLAATGRITLFRSALYVAAQLLGSTLACLLLAFLAVADSGVPVHALGAGVGA 140
Query: 115 -QSFVAEIIISFLLMFVISGAVTD-DRAIGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
+ + E +++F L+F + V D RA+G G + VG+ + NV GP SGASMNPAR
Sbjct: 141 LRGVLMEAVLTFSLLFAVYATVVDPRRAVGGMGPLLVGLVVGANVLAGGPFSGASMNPAR 200
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYN 205
S GPA+V + W+Y +GP+IG G Y+
Sbjct: 201 SFGPALVAGVWADHWVYWVGPLIGGPLAGLVYD 233
>sp|Q7PWV1|AQP_ANOGA Aquaporin AQPAn.G OS=Anopheles gambiae GN=AGAP008842 PE=3 SV=4
Length = 250
Score = 109 bits (273), Expect = 1e-23, Method: Compositional matrix adjust.
Identities = 70/214 (32%), Positives = 114/214 (53%), Gaps = 13/214 (6%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
++AE +GT+F++ G G+ Y T + T+GL+V + + H+SG H NP V
Sbjct: 26 LVAEFLGTFFLVAIGIGSTTGWTDYSP-TLTQIAFTFGLVVATLAQAFGHVSGCHINPAV 84
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV------PVGSNA 114
TI L + + YIV+Q +G++ + +++ TP G + P S
Sbjct: 85 TIGLIVTADVSILKGAFYIVSQCIGAIAGA---AVIKAATPSEVVGGLGVTGIAPGLSTG 141
Query: 115 QSFVAEIIISFLLMFVISGAVTDDRAIGQFGG--VAVGMTIMLNVFVAGPISGASMNPAR 172
Q + E +I+F+L+FV+ G V D+R G +A+G++I A +GASMNPAR
Sbjct: 142 QGVLIEALITFMLVFVVHG-VCDNRRTDVKGSAPLAIGLSITAGHLAAIKYTGASMNPAR 200
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNL 206
S GPA+V + +W+Y +GP++G + G Y L
Sbjct: 201 SFGPAVVMGNYTDLWVYWVGPIVGGIVAGAVYRL 234
>sp|Q7NNP3|AQPZ_GLOVI Aquaporin Z OS=Gloeobacter violaceus (strain PCC 7421) GN=aqpZ PE=3
SV=1
Length = 248
Score = 109 bits (272), Expect = 2e-23, Method: Compositional matrix adjust.
Identities = 68/219 (31%), Positives = 116/219 (52%), Gaps = 16/219 (7%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIYGK--VTFPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+AE IGT++++ GCGA + + + F GV + +GL ++ M +++ HISG H NP
Sbjct: 8 VAEFIGTFWLVLGGCGAAVLAAAFPNLGIGFAGVSLAFGLTLLTMAFAIGHISGCHINPA 67
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTL----------SLMLDVTPQAYFGTVP 109
V+I L ++F ++ YI AQV+G + +G L SL Y P
Sbjct: 68 VSIGLWAAKRFPATELLPYIAAQVLGGIAGAGVLYLIAGGKAGFSLSGGFASNGYGLHSP 127
Query: 110 VGSN-AQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASM 168
G V E++++F+ + +I G+ TD RA F +A+G+++ L ++ P++ S+
Sbjct: 128 GGYTLLACLVCEVVMTFMFLMIILGS-TDRRAPKGFAPIAIGLSLTLIHLISIPVTNTSV 186
Query: 169 NPARSIGPAIV--KHKFRGIWLYIIGPVIGTVTGGFAYN 205
NPARS GPA+ +WL+ + P++G G Y+
Sbjct: 187 NPARSTGPALFVGDWAIAELWLFWLAPIVGAALAGLFYH 225
>sp|Q7NU39|AQPZ_CHRVO Aquaporin Z OS=Chromobacterium violaceum (strain ATCC 12472 / DSM
30191 / JCM 1249 / NBRC 12614 / NCIMB 9131 / NCTC 9757)
GN=aqpZ PE=3 SV=1
Length = 229
Score = 108 bits (270), Expect = 2e-23, Method: Compositional matrix adjust.
Identities = 75/220 (34%), Positives = 119/220 (54%), Gaps = 16/220 (7%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGK--VTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
AE +GT++++ GCG+ + + + F GV + +GL V+ M Y++ HISG H NP V
Sbjct: 6 AEFLGTFWLVLGGCGSAVLAAGFPNLGIGFAGVALAFGLTVVTMAYAIGHISGCHLNPAV 65
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLM------LDVTP----QAYFGTVPV 110
+I L +F Q+ YIVAQV+G++ A L ++ DV Y P
Sbjct: 66 SIGLWAGGRFPAGQLAPYIVAQVLGAIAAGAVLYVIASGGAGFDVAKGFASNGYAEHSPG 125
Query: 111 G-SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASMN 169
G S + V E++++ + VI GA TD RA F +A+G+ + L ++ P++ S+N
Sbjct: 126 GYSLLAALVCEVVMTMFFLLVIMGA-TDKRAPAGFAPLAIGLALTLIHLISIPVTNTSVN 184
Query: 170 PARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYNLI 207
PARS G A+ + + +WL+ + P+IG V G Y LI
Sbjct: 185 PARSTGVALFVGGWAVQQLWLFWLAPIIGAVLGAKVYRLI 224
>sp|O26206|AQPM_METTH Aquaporin AqpM OS=Methanothermobacter thermautotrophicus (strain
ATCC 29096 / DSM 1053 / JCM 10044 / NBRC 100330 / Delta
H) GN=aqpM PE=3 SV=1
Length = 246
Score = 107 bits (268), Expect = 4e-23, Method: Compositional matrix adjust.
Identities = 79/239 (33%), Positives = 119/239 (49%), Gaps = 35/239 (14%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIY---GKVTFP---------------GVCVTWGLIVMV 43
IAE IGT+F++F G GA A+ + G P + + +G +
Sbjct: 9 IAEFIGTFFLVFFGAGAAAITLMIASGGTAPNPFNIGIGLLGGLGDWVAIGLAFGFAIAA 68
Query: 44 MIYSLAHISGAHFNPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQA 103
IY+L +ISG H NP VTI L ++F R V YI+AQ++G+ AS +T
Sbjct: 69 SIYALGNISGCHINPAVTIGLWSVKKFPGRDVVPYIIAQLLGAAFASFIFLQCAGITAAT 128
Query: 104 YFGTVPVGSNA--------QSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIML 155
G +G+ A Q+ +AE + +FLLM I G D+RA F G+ +G+T+
Sbjct: 129 IGG---LGATAPFPGIGYWQAMLAETVGTFLLMITIMGIAVDERAPKGFAGIIIGLTVAG 185
Query: 156 NVFVAGPISGASMNPARSIGPAIVKHKFRG--IW----LYIIGPVIGTVTGGFAYNLIK 208
+ G I+G+S+NPAR+ GP + F G +W +Y+IGPV+G V Y +
Sbjct: 186 IITTIGNITGSSLNPARTFGPYLNDMVFAGTNLWNYFPIYVIGPVVGAVLAALTYQYLT 244
>sp|Q87MQ5|AQPZ_VIBPA Aquaporin Z OS=Vibrio parahaemolyticus serotype O3:K6 (strain RIMD
2210633) GN=aqpZ PE=3 SV=1
Length = 232
Score = 107 bits (268), Expect = 4e-23, Method: Compositional matrix adjust.
Identities = 73/222 (32%), Positives = 118/222 (53%), Gaps = 21/222 (9%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+AE GT++++ GCG+ + + V GV + +GL V+ M +++ HISG H NP
Sbjct: 5 LAEAFGTFWLVLGGCGSAVLAAGFPDVGIGLLGVALAFGLTVLTMAFAIGHISGCHLNPA 64
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNAQSF-- 117
VT+ L +F + V YI+AQV+G L+A G L ++ T QA F V G A +
Sbjct: 65 VTVGLWAGGRFDTKDVAPYIIAQVIGGLIAGGILYVI--ATGQAGFDVVGSGFAANGYGE 122
Query: 118 ------------VAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISG 165
V+EI+++ + + VI GA TD RA F +A+G+ + L ++ P++
Sbjct: 123 HSPGQYSMLAALVSEIVMTMMFLIVIMGA-TDKRAPQGFAPIAIGLCLTLIHLISIPVTN 181
Query: 166 ASMNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYN 205
S+NPARS A+ + +WL+ + P++G V G Y
Sbjct: 182 TSVNPARSTAVAMYVGDWAVSQLWLFWVAPIVGGVLGAVIYK 223
>sp|Q06019|MIP_RANPI Lens fiber major intrinsic protein OS=Rana pipiens PE=1 SV=1
Length = 263
Score = 107 bits (268), Expect = 5e-23, Method: Compositional matrix adjust.
Identities = 73/213 (34%), Positives = 110/213 (51%), Gaps = 13/213 (6%)
Query: 3 AELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGVTI 62
AE GT F +F G GA ++ G + + +GL++ M+ S+ H+SGAH NP VT
Sbjct: 15 AEFFGTMFYVFFGLGA-SLKWAAGPANVLVIALAFGLVLATMVQSIGHVSGAHINPAVTF 73
Query: 63 ALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV------PVGSNAQS 116
A I Q + YI AQ++G++ + +++ VTP A G + P S Q+
Sbjct: 74 AFLIGSQMSLFRAIFYIAAQLLGAVAGA---AVLYGVTPAAIRGNLALNTLHPGVSLGQA 130
Query: 117 FVAEIIISFLLMFVISGAVTDDRAIGQFGGV--AVGMTIMLNVFVAGPISGASMNPARSI 174
EI ++ + I A D+R G+ G V A+G ++ L +GASMNPARS
Sbjct: 131 TTVEIFLTLQFVLCIF-ATYDERRNGRLGSVSLAIGFSLTLGHLFGLYYTGASMNPARSF 189
Query: 175 GPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
PA++ F W+Y +GP+IG GG Y+ I
Sbjct: 190 APAVLTRNFTNHWVYWVGPIIGGALGGLVYDFI 222
>sp|P60925|AQPZ_RHOPA Aquaporin Z OS=Rhodopseudomonas palustris (strain ATCC BAA-98 /
CGA009) GN=aqpZ PE=3 SV=1
Length = 240
Score = 107 bits (267), Expect = 6e-23, Method: Compositional matrix adjust.
Identities = 72/222 (32%), Positives = 122/222 (54%), Gaps = 16/222 (7%)
Query: 2 IAELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNPG 59
+AE+IGT+++ FAGCG+ + + +V GV + +GL V+ M Y++ HISG H NP
Sbjct: 7 LAEMIGTFWLTFAGCGSAVIAAGFPQVGIGLVGVSLAFGLSVVTMAYAIGHISGCHLNPA 66
Query: 60 VTIALAIFRQFKWRQVPLYIVAQVVGSLL----------ASGTLSLMLDVTPQAYFGTVP 109
VT+ LA +F +Q+ YI+AQV+G++ + L Y P
Sbjct: 67 VTLGLAAGGRFPVKQIAPYIIAQVLGAIAAAALLYLIASGAAGFDLAKGFASNGYGAHSP 126
Query: 110 VGSN-AQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGASM 168
N FV E++++ + +FVI G+ T +A F +A+G+ +++ V+ P++ S+
Sbjct: 127 GQYNLVACFVMEVVMTMMFLFVIMGS-THGKAPAGFAPLAIGLALVMIHLVSIPVTNTSV 185
Query: 169 NPARSIGPAIVKHKFR--GIWLYIIGPVIGTVTGGFAYNLIK 208
NPARS GPA+ + +WL+ + P++G V GG Y ++
Sbjct: 186 NPARSTGPALFVGGWAIGQLWLFWVAPLLGGVLGGVIYRVLS 227
>sp|Q25074|AQP_HAEIX Aquaporin OS=Haematobia irritans exigua PE=2 SV=1
Length = 251
Score = 107 bits (267), Expect = 7e-23, Method: Compositional matrix adjust.
Identities = 68/215 (31%), Positives = 115/215 (53%), Gaps = 12/215 (5%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
++AELIGT+F++ G G+ + + P + T+GL V + ++ HISG H NP V
Sbjct: 26 LMAELIGTFFLVVIGVGSCTGGSEWSP-SIPQIAFTFGLTVATLAQAIGHISGCHINPAV 84
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLM-------LDVTPQAYFGTVPVGSN 113
T+ I + + LYI Q VG++ + + + LD+ ++ T+ VG
Sbjct: 85 TVGFLIVGEMSIIKSVLYIAVQCVGAIAGAAVIKVGVSEAVSGLDLGVSSFSSTLTVG-- 142
Query: 114 AQSFVAEIIISFLLMFVISGAVTDDRA-IGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
Q+ + E +I+F+L+ V+ G R I +AVG++I A ++GASMNPAR
Sbjct: 143 -QAVLIEALITFILVVVVKGVSDPGRTDIKGSAPLAVGLSIAAGHLCAIKLTGASMNPAR 201
Query: 173 SIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLI 207
S GPA+V++ + W+Y +GP++G + Y +
Sbjct: 202 SFGPAVVQNMWIDHWVYWVGPIVGAIVAALLYKFV 236
>sp|Q9HWZ3|AQPZ_PSEAE Aquaporin Z OS=Pseudomonas aeruginosa (strain ATCC 15692 / PAO1 /
1C / PRS 101 / LMG 12228) GN=aqpZ PE=3 SV=1
Length = 229
Score = 106 bits (264), Expect = 1e-22, Method: Compositional matrix adjust.
Identities = 73/222 (32%), Positives = 120/222 (54%), Gaps = 20/222 (9%)
Query: 3 AELIGTYFIIFAGCG----AVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
AE GT++++ GCG A V ++ + + GV + +GL V+ M Y++ ISGAH NP
Sbjct: 6 AEFFGTFWLVLGGCGSAVLAAGVPEL--GIGYLGVALAFGLSVLTMAYAIGPISGAHLNP 63
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLD----------VTPQAYFGTV 108
V++ L + +F Q+ Y+VAQV+G L A G L L+ Y
Sbjct: 64 AVSVGLWVGGRFPASQLLPYVVAQVLGGLAAGGVLYLIASGKAGFDLAAGFASNGYGEHS 123
Query: 109 PVGSNAQ-SFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGAS 167
P G + Q + V+E++++ + + +I GA T RA F +A+G+T+ L ++ P++ S
Sbjct: 124 PGGYSLQAALVSEVVLTGMFLLIILGA-TSKRAPQGFAPIAIGLTLTLIHLISIPVTNTS 182
Query: 168 MNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYNLI 207
+NPARS A+ + +WL+ + P++G V G AY LI
Sbjct: 183 VNPARSTAVALYVGDWAVSQLWLFWVAPILGAVLGALAYRLI 224
>sp|Q23808|AQP_CICVR Aquaporin AQPcic OS=Cicadella viridis GN=AQP PE=1 SV=1
Length = 255
Score = 104 bits (260), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 70/214 (32%), Positives = 108/214 (50%), Gaps = 13/214 (6%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
+ AELIGT ++ G G+ +I + +T+G I+ M+ + H+SG H NP V
Sbjct: 29 LAAELIGTLLLVLIGTGSCTGVQISEGDVVVRIALTFGFIIATMVQCIGHVSGCHINPAV 88
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSNA------ 114
T L + + YI+ Q VG++ S L + +TP + GT+ + S A
Sbjct: 89 TCGLLVTGHISILKAIFYIIVQCVGAIAGSAILKV---ITPAEFRGTLCMTSLAPGVTPP 145
Query: 115 QSFVAEIIISFLLMFVISGAVTDDRA--IGQFGGVAVGMTIMLNVFVAGPISGASMNPAR 172
F+ E I+F+L+ ++ +V DDR +G VAVG+ I A +G+SMNPAR
Sbjct: 146 MGFLVEACITFVLILLVQ-SVCDDRRKNLGNAAPVAVGLAITCCHLAAIKYTGSSMNPAR 204
Query: 173 SIGPAIV-KHKFRGIWLYIIGPVIGTVTGGFAYN 205
S GPA+ + W+Y GP++G V G Y
Sbjct: 205 SFGPAVNGDDNWANHWVYWAGPIVGGVVAGITYR 238
>sp|Q8EHC1|AQPZ_SHEON Aquaporin Z OS=Shewanella oneidensis (strain MR-1) GN=aqpZ PE=3
SV=1
Length = 229
Score = 104 bits (259), Expect = 4e-22, Method: Compositional matrix adjust.
Identities = 69/220 (31%), Positives = 115/220 (52%), Gaps = 16/220 (7%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVT--FPGVCVTWGLIVMVMIYSLAHISGAHFNP 58
M AE +GT +++ GCG+ + + +V GV + +GL V+ M +++ HISG H NP
Sbjct: 5 MAAEFLGTLWLVLGGCGSAVLAAAFPEVGIGLLGVSLAFGLTVLTMAFAIGHISGCHLNP 64
Query: 59 GVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLD----VTPQAYFGTVPVGSNA 114
V+ L +F ++ YI+AQV G + +G L L+ + A F + G ++
Sbjct: 65 AVSFGLWAGGRFPTSELLPYIIAQVAGGIAGAGVLYLIASGQEGFSLAAGFASNGFGEHS 124
Query: 115 QS-------FVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVFVAGPISGAS 167
+ EI+++ + VI G+ TD+RA F +A+G+ + L ++ PIS S
Sbjct: 125 PGGYSMISVMICEIVMTLFFLLVILGS-TDERAPKGFAPIAIGLCLTLIHLISIPISNTS 183
Query: 168 MNPARSIGPAIVKHKF--RGIWLYIIGPVIGTVTGGFAYN 205
+NPARS GPA+ + +WL+ P+IG + G Y
Sbjct: 184 VNPARSTGPALFVGDWAVSQLWLFWAAPIIGAILAGVIYR 223
>sp|Q9NHW7|AQP_AEDAE Aquaporin AQPAe.a OS=Aedes aegypti GN=AAEL003512 PE=2 SV=2
Length = 249
Score = 104 bits (259), Expect = 5e-22, Method: Compositional matrix adjust.
Identities = 69/213 (32%), Positives = 111/213 (52%), Gaps = 10/213 (4%)
Query: 1 MIAELIGTYFIIFAGCGAVAVDKIYGKVTFPGVCVTWGLIVMVMIYSLAHISGAHFNPGV 60
++AE +GT+F++ G G+ T + T+GL+V + + H+SG H NP V
Sbjct: 26 LVAEFLGTFFLVSIGIGSTMGWGGDYAPTMTQIAFTFGLVVATLAQAFGHVSGCHINPAV 85
Query: 61 TIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTV------PVGSNA 114
TI L I + YIV+Q VG++ + +L+ TP G + P +
Sbjct: 86 TIGLMITADISILKGAFYIVSQCVGAIAGA---ALIKAATPSDVIGGLGVTGIDPRLTAG 142
Query: 115 QSFVAEIIISFLLMFVISGAVTDDRA-IGQFGGVAVGMTIMLNVFVAGPISGASMNPARS 173
Q + E +I+F+L+FV+ G + R+ I +A+G++I A +GASMNPARS
Sbjct: 143 QGVMIEALITFILVFVVHGVCDNRRSDIKGSAPLAIGLSITAGHLSAIKYTGASMNPARS 202
Query: 174 IGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNL 206
GPA+V + W+Y +GP++G + G Y L
Sbjct: 203 FGPAVVMGNWTDQWVYWVGPIVGGILAGAVYRL 235
>sp|Q5Z6F0|TIP22_ORYSJ Probable aquaporin TIP2-2 OS=Oryza sativa subsp. japonica GN=TIP2-2
PE=2 SV=1
Length = 248
Score = 103 bits (258), Expect = 7e-22, Method: Compositional matrix adjust.
Identities = 75/220 (34%), Positives = 113/220 (51%), Gaps = 14/220 (6%)
Query: 2 IAELIGTYFIIFAGCG-AVAVDKIYGKVTFP-------GVCVTWGLIVMVMIYSLAHISG 53
+AE I T +FAG G A+A K+ G VC +GL V V I A+ISG
Sbjct: 23 VAEFISTLVFVFAGVGSAIAYTKLTGGAPLDPAGLVAVAVCHGFGLFVAVAIG--ANISG 80
Query: 54 AHFNPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAYFGTVPVGSN 113
H NP VT LA+ Q Y +AQ++G+++ + + V + G VG+
Sbjct: 81 GHVNPAVTFGLALGGQITILTGVFYWIAQLLGAIVGAVLVQFCTGVATPTH-GLSGVGAF 139
Query: 114 AQSFVAEIIISFLLMFVISGAVTDDR--AIGQFGGVAVGMTIMLNVFVAGPISGASMNPA 171
+ V EII++F L++ + D + ++G +A+G + N+ VAGP SG SMNPA
Sbjct: 140 -EGVVMEIIVTFGLVYTVYATAADPKKGSLGTIAPIAIGFIVGANILVAGPFSGGSMNPA 198
Query: 172 RSIGPAIVKHKFRGIWLYIIGPVIGTVTGGFAYNLIKIHG 211
RS GPA+ + IW+Y +GP++G G Y + + G
Sbjct: 199 RSFGPAVASGDYTNIWIYWVGPLVGGGLAGLVYRYVYMCG 238
>sp|Q9C4Z5|AQPM_METTM Aquaporin AqpM OS=Methanothermobacter marburgensis (strain DSM 2133
/ 14651 / NBRC 100331 / OCM 82 / Marburg) GN=aqpM PE=1
SV=4
Length = 246
Score = 103 bits (257), Expect = 7e-22, Method: Compositional matrix adjust.
Identities = 78/236 (33%), Positives = 117/236 (49%), Gaps = 29/236 (12%)
Query: 2 IAELIGTYFIIFAGCGAVAVD-KIYGKVTFPG-----------------VCVTWGLIVMV 43
IAE IGT+ ++F G G+ AV I T P + + +G +
Sbjct: 9 IAEFIGTFILVFFGAGSAAVTLMIASGGTSPNPFNIGIGLLGGLGDWVAIGLAFGFAIAA 68
Query: 44 MIYSLAHISGAHFNPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQA 103
IY+L +ISG H NP VTI L ++F R+V YI+AQ++G+ S +
Sbjct: 69 SIYALGNISGCHINPAVTIGLWSVKKFPGREVVPYIIAQLLGAAFGSFIFLQCAGIGAAT 128
Query: 104 YFG---TVPVG--SNAQSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIMLNVF 158
G T P S Q+ +AE++ +FLLM I G D+RA F G+ +G+T+ +
Sbjct: 129 VGGLGATAPFPGISYWQAMLAEVVGTFLLMITIMGIAVDERAPKGFAGIIIGLTVAGIIT 188
Query: 159 VAGPISGASMNPARSIGPAIVKHKFRG--IW----LYIIGPVIGTVTGGFAYNLIK 208
G ISG+S+NPAR+ GP + F G +W +Y+IGP++G V Y +
Sbjct: 189 TLGNISGSSLNPARTFGPYLNDMIFAGTNLWNYYPIYVIGPIVGAVLAALTYQYLT 244
>sp|O28846|AQPM_ARCFU Probable aquaporin AqpM OS=Archaeoglobus fulgidus (strain ATCC
49558 / VC-16 / DSM 4304 / JCM 9628 / NBRC 100126)
GN=aqpM PE=1 SV=1
Length = 246
Score = 102 bits (255), Expect = 1e-21, Method: Compositional matrix adjust.
Identities = 85/238 (35%), Positives = 126/238 (52%), Gaps = 38/238 (15%)
Query: 3 AELIGTYFIIFAGCGAVAV--------DK----------IYGKVTFPGVCVTWGLIVMVM 44
AE++GT+ ++F G GA + DK + G + + + + L + +
Sbjct: 11 AEVVGTFILVFFGPGAAVITLMIANGADKPNEFNIGIGALGGLGDWFAIGMAFALAIAAV 70
Query: 45 IYSLAHISGAHFNPGVTIALAIFRQFKWRQVPLYIVAQVVGSLLASGTLSLMLDVTPQAY 104
IYSL ISGAH NP VTIAL +F R+V YIVAQ +G+ L G+L + V P A
Sbjct: 71 IYSLGRISGAHINPAVTIALWSIGRFPGREVVPYIVAQFIGAAL--GSLLFLACVGPAA- 127
Query: 105 FGTVP-VGSNA--------QSFVAEIIISFLLMFVISGAVTDDRAIGQFGGVAVGMTIML 155
TV +G+ A Q+ + E I +FLLM VI G D+RA F G+ +G+T+
Sbjct: 128 -ATVGGLGATAPFPGIGYGQAILTEAIGTFLLMLVIMGVAVDERAPPGFAGLVIGLTVGG 186
Query: 156 NVFVAGPISGASMNPARSIGPAIVKHKFRGI--W----LYIIGPVIGTVTGGFAYNLI 207
+ G I+G+S+NPAR+ GP + GI W +Y+IGP++G V + YN +
Sbjct: 187 IITTIGNITGSSLNPARTFGP-YLGDSLMGINLWQYFPIYVIGPIVGAVAAAWLYNYL 243
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
0.329 0.144 0.441
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 75,188,032
Number of Sequences: 539616
Number of extensions: 2917165
Number of successful extensions: 9463
Number of sequences better than 100.0: 50
Number of HSP's better than 100.0 without gapping: 243
Number of HSP's successfully gapped in prelim test: 30
Number of HSP's that attempted gapping in prelim test: 8476
Number of HSP's gapped (non-prelim): 325
length of query: 211
length of database: 191,569,459
effective HSP length: 112
effective length of query: 99
effective length of database: 131,132,467
effective search space: 12982114233
effective search space used: 12982114233
T: 11
A: 40
X1: 15 ( 7.1 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 40 (21.8 bits)
S2: 59 (27.3 bits)