bitscore colors: <40, 40-50 , 50-80, 80-200, >200
BLASTP 2.2.30+
Reference: Stephen F. Altschul, 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 composition-based statistics: Alejandro A. Schaffer,
L. Aravind, Thomas L. Madden, Sergei Shavirin, John L. Spouge, Yuri
I. Wolf, Eugene V. Koonin, and Stephen F. Altschul (2001),
"Improving the accuracy of PSI-BLAST protein database searches with
composition-based statistics and other refinements", Nucleic Acids
Res. 29:2994-3005.
Database: Microviridae_proteins.fasta
575 sequences; 147,441 total letters
Query= Contig-9_CDS_annotation_glimmer3.pl_2_6
Length=529
Score E
Sequences producing significant alignments: (Bits) Value
Alpavirinae_Human_gut_22_017_Microviridae_AG0397_putative.VP1 363 1e-119
Alpavirinae_Human_feces_A_021_Microviridae_AG077_putative.VP1 356 1e-116
Alpavirinae_Human_gut_33_017_Microviridae_AG0154_putative.VP1 345 3e-112
Alpavirinae_Human_feces_D_015_Microviridae_AG019_putative.VP1 323 2e-104
Alpavirinae_Human_feces_D_008_Microviridae_AG098_putative.VP1 317 1e-101
Alpavirinae_Human_feces_C_043_Microviridae_AG0322_putative.VP1 317 1e-101
Alpavirinae_Human_feces_E_011_Microviridae_AG0388_putative.VP1 317 2e-101
Alpavirinae_Human_feces_D_031_Microviridae_AG0425_putative.VP1 316 3e-101
Alpavirinae_Human_feces_B_039_Microviridae_AG096_putative.VP1 241 2e-73
Alpavirinae_Human_feces_A_034_Microviridae_AG0105_putative.VP1 191 7e-55
> Alpavirinae_Human_gut_22_017_Microviridae_AG0397_putative.VP1
Length=607
Score = 363 bits (933), Expect = 1e-119, Method: Compositional matrix adjust.
Identities = 229/564 (41%), Positives = 315/564 (56%), Gaps = 46/564 (8%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
+ T+A+ R+REY+DFY VP LLW A + LTQM D Q S N+ L P
Sbjct 55 VETSAYTRLREYFDFYAVPLRLLWKSAPSVLTQMQDINQLQALSFTQNL-SLGSYFPSLT 113
Query 61 LSSISRYLNSLASNSTAVTNKA---NYFGYNRALCSAKLMECLGYGNLYYYAESTSNTFA 117
LS + LN L S N + N FG++RA + KL LGYGN++ S+SN +
Sbjct 114 LSRFTAVLNRLNGGSNVPGNSSTFLNEFGFSRADLAFKLFSYLGYGNVWSSEFSSSNRWW 173
Query 118 KRPLHYNLN----------VSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTGS 167
L + V+LF LLAYQKIY D++R SQWE +PS +NVDY TG
Sbjct 174 STSLKGGGSYTQQYVQDSYVNLFPLLAYQKIYQDFFRWSQWENSNPSSYNVDYF---TGV 230
Query 168 SGMMLSF---NYSDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASI----SMSVPVV 220
S +++S + ++++ +MFDL+YCNW KD+ GV+PN Q+GDVA + S VV
Sbjct 231 SPLLVSSLPEASNAYWKSPTMFDLKYCNWNKDMLMGVLPNSQFGDVAVLDIDNSGKPDVV 290
Query 221 AGSSAAlinsritssnstttlrFP-------TDPAIPDATPLLT-----HPSFSILALRQ 268
G A + S S+ T P + +P + L F++LALRQ
Sbjct 291 LGLGNANSTVGVASYVSSNTASIPFFALKASSANTLPVGSTLRVDLASLKSQFTVLALRQ 350
Query 269 AEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNITG 328
AE LQ+WKEI+QSG+ DY+EQ+ KH+ V+ S MCTY+GGIS +LDI+EVVN N+
Sbjct 351 AEALQRWKEISQSGDSDYREQIRKHFGVNLPQALSNMCTYIGGISRNLDISEVVNNNLAA 410
Query 329 -SNAADIAGKGTGVSNGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRVNAADFA 387
+ A IAGKG G NG + + + VVMCIYH +PL+DYT + +A
Sbjct 411 EGDTAVIAGKGVGAGNGSFTYTTN-EHCVVMCIYHAVPLLDYTITGQDGQLLVTDAESLP 469
Query 388 IPEFDRVGMQTVPLSYVSNGPLSVLPLSIPN--EIGYAPRYIDYKTDIDTSIGAFKTSLK 445
IPEFD +GM+T+P++ + N P + SI N GY PRY ++KT +D GAF T+LK
Sbjct 470 IPEFDNIGMETLPMTQIFNSPKA----SIVNLFNAGYNPRYFNWKTKLDVINGAFTTTLK 525
Query 446 NWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVEADSSIDT 505
+WV L+ FG+ E V + NY FKVNP+ L+P+F V ADS+ D+
Sbjct 526 SWVSPVTESLLSGWFGFGYS--EGDVNSQNKVVLNYKFFKVNPSVLDPIFGVAADSTWDS 583
Query 506 DQFLCSTFFDVKVVRNLDTDGLPY 529
DQ L +++ V RNL DG+PY
Sbjct 584 DQLLVNSYIGCYVARNLSRDGVPY 607
> Alpavirinae_Human_feces_A_021_Microviridae_AG077_putative.VP1
Length=622
Score = 356 bits (914), Expect = 1e-116, Method: Compositional matrix adjust.
Identities = 221/573 (39%), Positives = 318/573 (55%), Gaps = 54/573 (9%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
++TAA+ R++EY D++FVP +L+ +++TQM DNP A+ + + D MP+T
Sbjct 60 VDTAAYTRVKEYVDWFFVPLNLIQKGIESAITQMVDNPVSAMSAIENRAITTD--MPYTT 117
Query 61 LSSISRYLNSLASNS--TAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTSNT--- 115
L S+SR L L S + K N FG++RA SAKL++ L YGN S +T
Sbjct 118 LLSLSRALYMLNGKSYVNSHAGKLNMFGFSRADLSAKLLQMLKYGNFINPEHSGLDTPMF 177
Query 116 ------FAKRPLHYNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTGSSG 169
A+ +N V++ + YQKIY+DY+R QWE+ P +N DY Y+ G
Sbjct 178 GYSTVKLAQFSYLWNQAVNVLPIFCYQKIYSDYFRFQQWEKPVPYTYNADY--YAGGDIF 235
Query 170 MMLSFNYSDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASISMSV--------PVVA 221
+ ++ NY+ FDLRYCNW +DL+ G +PNQQ+G+V+ + M+V PV
Sbjct 236 PNPTTMPDAYWNNYTPFDLRYCNWNRDLYTGFLPNQQFGNVSVVDMTVSSDEIMAAPVTF 295
Query 222 GSSA------AlinsritssnstttlrFPTDPAIPDATPLLTH-------PSFSILALRQ 268
G++ + TSS T+ P+ +P T L +FSILALRQ
Sbjct 296 GATGNRVAVTKAALASSTSSTGIGTVSTPSGGTVPVGTSLYAQVQQRDLTGAFSILALRQ 355
Query 269 AEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNIT- 327
AEFLQKWKEI SG++DY+ Q+EKH+ V S M Y+GG + +DI+EVVNQN+T
Sbjct 356 AEFLQKWKEIALSGDQDYRSQIEKHFGVKLPAELSYMSQYIGGQFAQMDISEVVNQNLTD 415
Query 328 --GSNAAD----IAGKGTGVSNGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRV 381
GS+AA IAGKG +G +N+ ++ ++G++M IYH +PL+DY +
Sbjct 416 QAGSDAAQYPALIAGKGVNSGDGNVNYTAR-QHGIIMGIYHAVPLLDYERTGQDQDLLIT 474
Query 382 NAADFAIPEFDRVGMQTVPLSYVSN-----GPLSVLPLSIPNEIGYAPRYIDYKTDIDTS 436
+A ++AIPEFD +GMQT+PL + N G IGY PRY+++KTDID
Sbjct 475 SAEEWAIPEFDAIGMQTLPLGTLFNSNKVSGDSDFRLHGAAYPIGYVPRYVNWKTDIDEI 534
Query 437 IGAFKTSLKNWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFA 496
GAF++S K WV D + N + + S +NY FKVNP L+ +FA
Sbjct 535 FGAFRSSEKTWVAPIDADFITNWVKNVADNASA-----VQSLFNYNWFKVNPAILDDIFA 589
Query 497 VEADSSIDTDQFLCSTFFDVKVVRNLDTDGLPY 529
V+ADS++DTD F +K VRNLD G+PY
Sbjct 590 VKADSTMDTDTFKTRMMMSIKCVRNLDYSGMPY 622
> Alpavirinae_Human_gut_33_017_Microviridae_AG0154_putative.VP1
Length=614
Score = 345 bits (884), Expect = 3e-112, Method: Compositional matrix adjust.
Identities = 219/561 (39%), Positives = 308/561 (55%), Gaps = 43/561 (8%)
Query 3 TAAFARMREYYDFYFVPYDLLWNKANTSLTQMYD-NPQHALD-SSPLNVVKLDGSMPFTD 60
T+A+ R+REY+DFY VP LLW A + LTQM D N AL + L++ S+
Sbjct 63 TSAYTRLREYFDFYAVPLRLLWKSAPSVLTQMQDVNQIQALSLTQNLSLGTYLPSLTIGT 122
Query 61 LSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTSNTFAKRP 120
L RYLN + N FG++RA S KL+ LGYGNL S N +
Sbjct 123 LGWAIRYLNGNTWEPETASYLRNAFGFSRADLSFKLLSYLGYGNLIETPPSLGNRWWSTS 182
Query 121 LH-------------YNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTGS 167
L N V++F LL YQKIY D++R QWE+ +PS +NVDY S+ S
Sbjct 183 LKNTDDGANYTQQYIQNTIVNIFPLLTYQKIYQDFFRWPQWEKSNPSSYNVDYFSGSSPS 242
Query 168 SGMMLSFNYSDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASISMSVP----VVAGS 223
L S ++++ +MFDL+YCNW KD+ GV+PN Q+GDVA + +S VV G
Sbjct 243 IVSDLPAASSAYWKSDTMFDLKYCNWNKDMLMGVLPNSQFGDVAVLDISSSGDSDVVLGV 302
Query 224 SAAlinsritssnstttlrFP--------TDPAIPDATPLLTHPS----FSILALRQAEF 271
I S+ ++ + P ++P + L S F++LALRQAE
Sbjct 303 DPHKSTLGIGSAITSKSAVVPLFALDASTSNPVSVGSKLHLDLSSIKSQFNVLALRQAEA 362
Query 272 LQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNITG-SN 330
LQ+WKEI+QSG+ DY+EQ+ KH+ V S +CTY+GGIS +LDI+EVVN N+ +
Sbjct 363 LQRWKEISQSGDSDYREQILKHFGVKLPQALSNLCTYIGGISRNLDISEVVNNNLAAEED 422
Query 331 AADIAGKGTGVSNGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRVNAADFAIPE 390
A IAGKG G NG + + + V+M IYH +PL+DYT + +A IPE
Sbjct 423 TAVIAGKGVGTGNGSFTYTTN-EHCVIMGIYHAVPLLDYTLTGQDGQLLVTDAESLPIPE 481
Query 391 FDRVGMQTVPLSYVSNGPLSVLPLSIPNEIGYAPRYIDYKTDIDTSIGAFKTSLKNWVIS 450
FD +G++ +P++ + N L+ ++ N GY PRY ++KT +D GAF T+LK+WV
Sbjct 482 FDNIGLEVLPMAQIFNSSLAT-AFNLFNA-GYNPRYFNWKTKLDVINGAFTTTLKSWVSP 539
Query 451 YDNQSLAN--QFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVEADSSIDTDQF 508
L+ +FG S + NY FKVNP+ L+P+F V+ADS+ DTDQ
Sbjct 540 VSESLLSGWARFG------ASDSKTGTKAVLNYKFFKVNPSVLDPIFGVKADSTWDTDQL 593
Query 509 LCSTFFDVKVVRNLDTDGLPY 529
L +++ VVRNL DG+PY
Sbjct 594 LVNSYIGCYVVRNLSRDGVPY 614
> Alpavirinae_Human_feces_D_015_Microviridae_AG019_putative.VP1
Length=584
Score = 323 bits (828), Expect = 2e-104, Method: Compositional matrix adjust.
Identities = 199/553 (36%), Positives = 300/553 (54%), Gaps = 52/553 (9%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
+NT+A+ R+REYYD+++ P LLW A + Q+ N QHA SS V L +MP
Sbjct 60 VNTSAYTRVREYYDWFWCPLHLLWRNAPEVIAQIQQNVQHA--SSFDGSVLLGSNMPCFS 117
Query 61 LSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNL-----------YYYA 109
IS+ L+ + S K NYFG+NRA + KL++ L YGN+ Y +
Sbjct 118 ADQISQSLDMMKS-------KLNYFGFNRADLAYKLIQYLRYGNVRTGVGTSGSRNYGTS 170
Query 110 ESTSNTFAKRPLHYNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTGSSG 169
++ + +N +S+F +LAY+K DY+R +QW+ +P +N+DY Y +
Sbjct 171 VDVKDSSYNQNRAFNHALSVFPILAYKKFCQDYFRLTQWQVSAPYLWNIDY--YDGKGAT 228
Query 170 MMLSFNYSD---FYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASISMS-----VPVVA 221
+L + S ++E+ + FDL YCNW KD+F G +P+ QYGD + + +S PV+
Sbjct 229 TILPADLSKSVTYFEHDTFFDLEYCNWNKDMFFGSLPDAQYGDTSVVDISYGTTGAPVIT 288
Query 222 GSSAAlinsritssnstttlrFPTDPAIPDATPLLTHPSFSILALRQAEFLQKWKEITQS 281
+ + T+ + +D T+ + +LALR+ E LQ+++EI+
Sbjct 289 AQNLQSPVNSSTAIGT-------SDKFSTQLIEAGTNLTLDVLALRRGEALQRFREISLC 341
Query 282 GNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNITGSNAADIAGKGTGV 341
+Y+ Q++ H+ V G S M TY+GG +SSLDI+EVVN NIT SN A IAGKG G
Sbjct 342 TPLNYRSQIKAHFGVDVGSELSGMSTYIGGEASSLDISEVVNTNITESNEALIAGKGIGT 401
Query 342 SNGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRVNAADFAIPEFDRVGMQTVPL 401
G F ++ +GV+MCIYH +PL+DY P + F +PE D +G++ + +
Sbjct 402 GQGNEEFYAK-DWGVLMCIYHSVPLLDYVISAPDPQLFASMNTSFPVPELDAIGLEPITV 460
Query 402 SYVSNGPLSV-----LPLSIPNEIGYAPRYIDYKTDIDTSIGAFKTSLKNWVISYDNQSL 456
+Y SN P+ + + + +GY PRY +KT ID +GAF T+ K WV +
Sbjct 461 AYYSNNPIELPSTGGITDAPTTTVGYLPRYYAWKTSIDYVLGAFTTTEKEWVAPITPELW 520
Query 457 ANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVEADSSIDTDQFLCSTFFDV 516
+N P+ + NY FKVNP+ L+P+FAV ADS DTD FL + FD+
Sbjct 521 SNML--------KPL-GTKGTGINYNFFKVNPSILDPIFAVNADSYWDTDTFLINAAFDI 571
Query 517 KVVRNLDTDGLPY 529
+V RNLD DG+PY
Sbjct 572 RVARNLDYDGMPY 584
> Alpavirinae_Human_feces_D_008_Microviridae_AG098_putative.VP1
Length=618
Score = 317 bits (812), Expect = 1e-101, Method: Compositional matrix adjust.
Identities = 213/571 (37%), Positives = 299/571 (52%), Gaps = 54/571 (9%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGS-MPFT 59
LNTAA+ R+REY DFYFVP L+ T+LTQM DNP A S VV D +P
Sbjct 60 LNTAAYTRIREYLDFYFVPLRLINKNLPTALTQMQDNPVQATGLSSNKVVTTDIPWVPVH 119
Query 60 DLSSISRYLNSLA--SNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTSNTFA 117
S L A S + ++ N+ G++ SAKL+ L YGN + + +
Sbjct 120 SSSGSYSSLTGFADVRGSVSSSDIENFLGFDSITQSAKLLMYLRYGN--FLSSVVPDEQK 177
Query 118 KRPLHYNLN-------------VSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYS 164
L +L+ V + L YQKIYAD++R +QWE+ P +N D+ YS
Sbjct 178 SIGLSSSLDLRNSETVSTGYTSVHILPLATYQKIYADFFRFTQWEKNQPYTYNFDW--YS 235
Query 165 TGSSGMMLSFNY--SDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASISMS-----V 217
G+ L+ +Y + ++F LRY NW KD+F GV+P+ Q GDV+ + S
Sbjct 236 GGNVLASLTTQALAKKYYSDDNLFTLRYANWPKDMFMGVMPDSQLGDVSIVDTSGSEGTF 295
Query 218 PVV------AGSSAAlinsritssnstttlrFPTDPAIPDATPLLTHP--------SFSI 263
PV GS A L+ TS + ++L T A+ +T + SFSI
Sbjct 296 PVGLYNFADGGSRAGLVAVSGTSPAAGSSLDMQTTSALSASTKYGVYAQQVAGLGSSFSI 355
Query 264 LALRQAEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVN 323
L LR AE +QK++E++Q ++D + Q+ H+ VS S+ C YLGG SS++D++EVVN
Sbjct 356 LQLRMAEAVQKYREVSQFADQDARGQIMAHFGVSLSPVLSDKCMYLGGSSSNIDLSEVVN 415
Query 324 QNITGSNAADIAGKGTGVSNGVI--NFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRV 381
NITG N A+IAGKG G G NF++ YG++M IYH +PL+DY ++
Sbjct 416 TNITGDNIAEIAGKGVGTGQGSFSGNFDT---YGIIMGIYHNVPLLDYVITGQPQNLLYT 472
Query 382 NAADFAIPEFDRVGMQTVPLSYVSNGPLSVLPLSI---PNEIGYAPRYIDYKTDIDTSIG 438
N AD PE+D +GMQT+ N + +GY PR+ D KT D +G
Sbjct 473 NTADLPFPEYDSIGMQTIQFGRFVNSKAVGWTSGVDYRTQTMGYLPRFFDVKTRYDEVLG 532
Query 439 AFKTSLKNWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVE 498
AF+++LKNWV D +L SV + N NY FKVNP L+ +F V+
Sbjct 533 AFRSTLKNWVAPLDPANLPQWLQTSVTSSGKLFLN-----LNYGFFKVNPRVLDSIFNVK 587
Query 499 ADSSIDTDQFLCSTFFDVKVVRNLDTDGLPY 529
DS+IDTDQFL + + D+K VRN D DG+PY
Sbjct 588 CDSTIDTDQFLTTLYMDIKAVRNFDYDGMPY 618
> Alpavirinae_Human_feces_C_043_Microviridae_AG0322_putative.VP1
Length=602
Score = 317 bits (811), Expect = 1e-101, Method: Compositional matrix adjust.
Identities = 206/563 (37%), Positives = 308/563 (55%), Gaps = 55/563 (10%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
+NTAA+ R++EYYD+YFVP L+ +L QM D P A V LD +P+T+
Sbjct 61 VNTAAYTRVKEYYDWYFVPLRLINKSIGQALVQMQDQPVQATSIVANKSVTLD--LPWTN 118
Query 61 LSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTS------- 113
+++ LN + +TNK N G+++A SAKL+ L YGN YY ++ +
Sbjct 119 AATMFTLLNYA---NVILTNKYNLDGFSKAATSAKLLRYLRYGNCYYTSDPSKVGKNKNF 175
Query 114 --------NTFAKRPLHYNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYST 165
N A + + +N+ L AYQKIY D++R QWE P +N DY Y+
Sbjct 176 GLSSKDDFNLLAAKNVSFNV----LPLAAYQKIYCDWFRFEQWENACPYTYNFDY--YNG 229
Query 166 GSSGMMLSFNYSDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASIS--------MSV 217
G+ ++ N +F+ N ++ LRY N+ KDLF GV+P+ Q+G VA+++ +S
Sbjct 230 GNVFAGVTANPENFWSNDNILSLRYANYNKDLFMGVMPSSQFGSVATVNVANFSSSNLSS 289
Query 218 PVVAGSSAAlinsritssnstttlrFPT-DPAIPDATPLLTH-------PSFSILALRQA 269
P+ S+ ++ + +S+ + + + D + D +LT SF IL+ R A
Sbjct 290 PLRNLSNVGMVTASNNASSGSPLILRSSQDTSAGDGFGILTSNIFSTLSASFDILSFRIA 349
Query 270 EFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNITGS 329
E QKWKE+TQ + YKEQ+E H+NV + S+ C Y+GG SS + I+EV+N N+ S
Sbjct 350 EATQKWKEVTQCAKQGYKEQLEAHFNVKLSEALSDHCRYIGGTSSGVTISEVLNTNLE-S 408
Query 330 NAADIAGKGTGVSNGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRVNAADFAIP 389
AADI GKG G S G F + +G++MCIYH P++DY + A D IP
Sbjct 409 AAADIKGKGVGGSFGSETFETN-EHGILMCIYHATPVLDYLRSGQDLQLLSTLATDIPIP 467
Query 390 EFDRVGMQTVPLSYVSN---GPLSVLPLSIPNEIGYAPRYIDYKTDIDTSIGAFKTSLKN 446
EFD +GM+ +P+ + N + L SIP +GY+PRYI YKT +D GAF+T+L +
Sbjct 468 EFDHIGMEALPIETLFNEQSTEATALINSIP-VLGYSPRYIAYKTSVDWVSGAFETTLDS 526
Query 447 WVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVEADSSIDTD 506
WV ++ Q + P+S + S NY FKV P L+P+F E + D+D
Sbjct 527 WVAPL---TVNEQITKLLFNPDS----GSVYSMNYGFFKVTPRVLDPIFVQECTDTWDSD 579
Query 507 QFLCSTFFDVKVVRNLDTDGLPY 529
QFL + F+VK V+NLD +G+PY
Sbjct 580 QFLVNVSFNVKPVQNLDYNGMPY 602
> Alpavirinae_Human_feces_E_011_Microviridae_AG0388_putative.VP1
Length=622
Score = 317 bits (812), Expect = 2e-101, Method: Compositional matrix adjust.
Identities = 217/579 (37%), Positives = 320/579 (55%), Gaps = 67/579 (12%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
+ TAA+ R+REY+DFY VP DLLW ++++ QM + L+ + + +P+
Sbjct 61 VQTAAYTRVREYFDFYAVPCDLLWKSFDSAVIQM-GQTAPVQSKTLLDPLTVGNDIPWCT 119
Query 61 LSSISR--YLNS----LASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLY-------- 106
L +S Y +S L S + + N FGYNR +KL+ L YGN
Sbjct 120 LLDLSNAVYFSSGSSPLGSTVSVPSGFGNIFGYNRGDVDSKLLFYLNYGNFVNPSLSNVG 179
Query 107 ---------YYAESTSNTFAKRPLHYNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFN 157
++ S ++++ L+ N V++F LLAYQKIY D++R SQWE P+ +N
Sbjct 180 SPSNRWWNTSFSSSKVPGYSQKYLNNNA-VNIFPLLAYQKIYQDFFRWSQWENADPTSYN 238
Query 158 VDYMPYST---GSSGMMLSFNYSD-FYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASI 213
VDY S GSSG+ S S+ +++ +MF LRYCNW KD+F G++PN Q+GDVA +
Sbjct 239 VDYYNGSGNLFGSSGLSGSVTASNSYWKRDNMFSLRYCNWNKDMFTGLLPNSQFGDVAVV 298
Query 214 SM------SVPVVAGSSAAlinsritssnstttlrFPTDP-AIPDATPLLTH-------- 258
++ ++PV G + + ++ + T P I +TP+
Sbjct 299 NLGDSGSGTIPV--GFLSDTEVFTQAFNATSMSTVSDTSPMGISGSTPVSARQSMVARIN 356
Query 259 ----PSFSILALRQAEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISS 314
SFSILALRQAE LQKWKEITQS + +Y++Q++ H+ ++ S M Y+GG++
Sbjct 357 NADVASFSILALRQAEALQKWKEITQSVDTNYRDQIKAHFGINTPASMSHMAQYIGGVAR 416
Query 315 SLDINEVVNQNIT--GSNAADIAGKGTGVSNGVINFNSQGRYGVVMCIYHCLPLIDYTTD 372
+LDI+EVVN N+ GS A I GKG G +G + +++ +Y ++MCIYH +PL+DY
Sbjct 417 NLDISEVVNNNLKDDGSEAV-IYGKGVGSGSGKMRYHTGSQYCIIMCIYHAMPLLDYAIT 475
Query 373 FVSPSVTRVNAADFAIPEFDRVGMQTVPLSYVSNGPLSVL--PLSIPNEIGYAPRYIDYK 430
P + + D IPEFD +GM+ VP + + N SVL ++ + +GY PRY +K
Sbjct 476 GQDPQLLCTSVEDLPIPEFDNIGMEAVPATTLFN---SVLFDGTAVNDFLGYNPRYWPWK 532
Query 431 TDIDTSIGAFKTSLKNWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNS 490
+ ID GAF T+LK+WV D+ L N F S A+ SW + FKVNPN+
Sbjct 533 SKIDRVHGAFTTTLKDWVAPIDDDYLHNWF-------NSKDGKSASISWPF--FKVNPNT 583
Query 491 LNPLFAVEADSSIDTDQFLCSTFFDVKVVRNLDTDGLPY 529
L+ +FAV ADS +TDQ L + KVVR L DG+PY
Sbjct 584 LDSIFAVVADSIWETDQLLINCDVSCKVVRPLSQDGMPY 622
> Alpavirinae_Human_feces_D_031_Microviridae_AG0425_putative.VP1
Length=614
Score = 316 bits (809), Expect = 3e-101, Method: Compositional matrix adjust.
Identities = 205/574 (36%), Positives = 295/574 (51%), Gaps = 59/574 (10%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLD------- 53
LNTAA+ R+REY DFYFVP L+ T+L QM DNP A S VV D
Sbjct 55 LNTAAYTRIREYLDFYFVPLRLINKNLPTALMQMQDNPVQATGLSSNKVVTTDIPWVPTN 114
Query 54 GSMPFTDLSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTS 113
S + L++++ NS S+ST + + G++ SAKL+ L YGN S
Sbjct 115 LSGTYGSLTALADVKNSFPSSSTGI---EDLLGFDAITQSAKLLMYLRYGNFLSSVVSDK 171
Query 114 NTFAKRPLHYNL-----------NVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMP 162
N +L ++ + L AYQK YAD++R +QWE+ P +N D+
Sbjct 172 NKSLGLSGSLDLRNSETASTGYTSMHILPLAAYQKAYADFFRFTQWEKNQPYTYNFDW-- 229
Query 163 YSTGSSGMMLSFNYSDFYENY----SMFDLRYCNWQKDLFHGVVPNQQYGDVASI----- 213
YS G+ ++ S D + Y ++F LRY NW KD+F GV+P+ Q GDV+ +
Sbjct 230 YSGGN--VLASLTTLDLAKKYYSDDNLFTLRYANWPKDMFMGVMPDSQLGDVSIVDASGS 287
Query 214 --------------SMSVPVVAGSSAAlinsritssnstttlrFPTDPAIPDATPLLTHP 259
++ ++A S +A +++ L T +
Sbjct 288 EGTFPVGLLDVNDGTLRAGLLARSGSAPAEKSSLEMQTSSALSANTTYGVYAQRAAGLAS 347
Query 260 SFSILALRQAEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDIN 319
SFSIL LR AE +QK++E++Q ++D + Q+ H+ VS S+ C YLGG SS++D++
Sbjct 348 SFSILQLRMAEAVQKYREVSQFADQDARGQIMAHFGVSLSPVLSDKCVYLGGSSSNIDLS 407
Query 320 EVVNQNITGSNAADIAGKGTGVSNGVINFNSQ-GRYGVVMCIYHCLPLIDYTTDFVSPSV 378
EVVN NITG N A+IAGKG G G +F+ Q YG+++ IYH +PL+DY ++
Sbjct 408 EVVNTNITGDNVAEIAGKGVGTGQG--SFSGQFDEYGIIIGIYHNVPLLDYVITGQPQNL 465
Query 379 TRVNAADFAIPEFDRVGMQTVPLSYVSNGPLSVLPLSIP---NEIGYAPRYIDYKTDIDT 435
N AD PEFD +GMQT+ N + +GY PR+ D KT D
Sbjct 466 LYTNTADLPFPEFDSIGMQTIQFGRFVNSKSVSWTSGVDYRVQTMGYLPRFFDVKTRYDE 525
Query 436 SIGAFKTSLKNWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLF 495
+GAF+++LKNWV D ++ SV + N NY FKVNP L+ +F
Sbjct 526 VLGAFRSTLKNWVAPLDPSYVSKWLQSSVTSSGKLALN-----LNYGFFKVNPRVLDSIF 580
Query 496 AVEADSSIDTDQFLCSTFFDVKVVRNLDTDGLPY 529
V+ DS+IDTDQFL + + D+K VRN D DG+PY
Sbjct 581 NVKCDSTIDTDQFLTALYMDIKAVRNFDYDGMPY 614
> Alpavirinae_Human_feces_B_039_Microviridae_AG096_putative.VP1
Length=579
Score = 241 bits (616), Expect = 2e-73, Method: Compositional matrix adjust.
Identities = 177/555 (32%), Positives = 274/555 (49%), Gaps = 62/555 (11%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
+NTAA+ R++EYYDFY VP L+ + TQM D A SS N L S+P
Sbjct 61 VNTAAYTRIKEYYDFYAVPLRLISRALPQAFTQMTDYMTSAA-SSTANTSALT-SVPSVT 118
Query 61 LSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTSNTFAKR- 119
S S + + +N+ N + G S KL++ LGYG++ + K+
Sbjct 119 QSLFSAFFQT--ANAGDQPNTRDDAGLPIVYGSCKLLDMLGYGSMIDSKNTGKAAITKKY 176
Query 120 -----------PLHY--NLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTG 166
PL Y + V+ LAYQKIY D++ ++QWE+ +NVDY TG
Sbjct 177 LGVDALGDADNPLVYQSSQTVNALPFLAYQKIYYDFFSNNQWEKHKAYAYNVDYWS-GTG 235
Query 167 SSGMMLSFNYSDFYENYSMFDLRYCNWQKDLFHGVVPNQQYGDVASI-SMSVPVVAGSSA 225
+ G++ M LRY N+ KD F G++P+ QYG VA + S++ V+ +
Sbjct 236 NIGLVTD-----------MVQLRYANYPKDYFMGMLPSSQYGSVAVLPSLTSAAVSPTFI 284
Query 226 AlinsritssnstttlrFPTDPAIPDATPLLTHPSF----SILALRQAEFLQKWKEITQS 281
N+ +S + + T L + S L+LR E+LQ+WKE+ Q
Sbjct 285 INKNNVSSSYTIVNNNNNTLVASSTNTTGLEQYSQLNTDLSALSLRATEYLQRWKEVVQF 344
Query 282 GNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINEVVNQNI-TGSNAADIAGKGTG 340
+KDY +Q+ + + + Y+GG SS ++INEVVN N+ T S+ A IAGKG
Sbjct 345 SSKDYSDQMAAQFGIKAPEYMGNHAHYIGGWSSVININEVVNTNLDTDSSQASIAGKGVS 404
Query 341 VSNG-VINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSVTRVNAADFAIPEFDRVGMQTV 399
++G I ++ + V+MC+YH +P++D+ +P +T +DF P FD++GMQ V
Sbjct 405 SNSGHTITYDCGAEHQVIMCVYHAVPMLDWNLTGQAPQLTVTAISDFPQPAFDQLGMQAV 464
Query 400 PLSYVSNGPLSVLPLSIPNEIGYAPRYIDYKTDIDTSIGAFK--TSLKNWVISYDNQSLA 457
P + N P ++ +GY RY +K++IDT F+ + ++W D
Sbjct 465 PALNLQNNP----GRNVSGSLGYNLRYWQWKSNIDTVHAGFRAGAAYQSWAAPLD----- 515
Query 458 NQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLFAVEADS---SIDTDQFLCSTFF 514
G+ V T A+ +W+Y K+ P LN +F + D+ S+ DQ LC+ F
Sbjct 516 ---GWQVLT--------ASGTWSYQSMKIRPQQLNSIFVPQIDAANCSVAFDQLLCNVNF 564
Query 515 DVKVVRNLDTDGLPY 529
V V+NLD +GLPY
Sbjct 565 QVYAVQNLDRNGLPY 579
> Alpavirinae_Human_feces_A_034_Microviridae_AG0105_putative.VP1
Length=618
Score = 191 bits (485), Expect = 7e-55, Method: Compositional matrix adjust.
Identities = 113/274 (41%), Positives = 156/274 (57%), Gaps = 17/274 (6%)
Query 261 FSILALRQAEFLQKWKEITQSGNKDYKEQVEKHWNVSPGDGFSEMCTYLGGISSSLDINE 320
FS+L LR AE LQKWKEI Q+ ++Y QV+ H+ VS S T + G S+DI+
Sbjct 357 FSVLQLRAAEALQKWKEIAQANGQNYAAQVKAHFGVSTNPMQSHRSTRICGFDGSIDISA 416
Query 321 VVNQNITGSNAADIAGKGTGVS--NGVINFNSQGRYGVVMCIYHCLPLIDYTTDFVSPSV 378
V N N+T ++ A I GKG G N +F +GV+MCIYH PL+DY P +
Sbjct 417 VENTNLT-ADEAIIRGKGLGGQRINDPSDFTCN-EHGVIMCIYHATPLLDYVP--TGPDL 472
Query 379 ---TRVNAADFAIPEFDRVGMQTVPLSYVSNGPLSVLPLSIPNEIGYAPRYIDYKTDIDT 435
+ V + +PEFD +GM+++P+ + N ++ + + GY PRYI +KT ID
Sbjct 473 QLMSTVKGESWPVPEFDSLGMESLPMLSLVNSK-AIGDIVARSYAGYVPRYISWKTSIDV 531
Query 436 SIGAFKTSLKNWVISYDNQSLANQFGYSVETPESPVPNPANSSWNYTLFKVNPNSLNPLF 495
GAF +LK+W D+ + FG + SP+ +YT FKVNP+ LNP+F
Sbjct 532 VRGAFTDTLKSWTAPVDSDYMHVFFGEVIPQEGSPI-------LSYTWFKVNPSVLNPIF 584
Query 496 AVEADSSIDTDQFLCSTFFDVKVVRNLDTDGLPY 529
AV D S +TDQ LC+ FDVKV RNL DG+PY
Sbjct 585 AVSVDGSWNTDQLLCNCQFDVKVARNLSYDGMPY 618
Score = 139 bits (349), Expect = 4e-37, Method: Compositional matrix adjust.
Identities = 82/217 (38%), Positives = 123/217 (57%), Gaps = 22/217 (10%)
Query 1 LNTAAFARMREYYDFYFVPYDLLWNKANTSLTQMYDNPQHALDSSPLNVVKLDGSMPFTD 60
++T+AF R+REYY+++FVP LL+ +N ++ M + P +A S + + + ++P+ D
Sbjct 61 VDTSAFTRIREYYEWFFVPLHLLYRNSNEAIMSMENQPNYAASGS--SSISFNRNLPWVD 118
Query 61 LSSISRYLNSLASNSTAVTNKANYFGYNRALCSAKLMECLGYGNLYYYAESTSNTFAKRP 120
LS+I N N + T+ N+FG +R+ KL+ LGYG E++ +
Sbjct 119 LSTI----NVAIGNVQSSTSPKNFFGVSRSEGFKKLVSYLGYG------ETSPEKYVD-- 166
Query 121 LHYNLNVSLFNLLAYQKIYADYYRDSQWERVSPSCFNVDYMPYSTGSSGMMLSFNYSDFY 180
NL S F L AYQKIY DYYR SQWE+ P +N D+ G ++ F
Sbjct 167 ---NLRCSAFPLYAYQKIYQDYYRHSQWEKSKPWTYNCDFW---NGEDSTPITATVELFS 220
Query 181 E--NYSMFDLRYCNWQKDLFHGVVPNQQYGDVASISM 215
+ N S+F+LRY NW KDL+ G +PN Q+GDVA IS+
Sbjct 221 QSPNDSVFELRYANWNKDLWMGSLPNSQFGDVAGISL 257
Lambda K H a alpha
0.317 0.133 0.404 0.792 4.96
Gapped
Lambda K H a alpha sigma
0.267 0.0410 0.140 1.90 42.6 43.6
Effective search space used: 48092496