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-10_CDS_annotation_glimmer3.pl_2_1
Length=206
Score E
Sequences producing significant alignments: (Bits) Value
Alpavirinae_Human_gut_30_040_Microviridae_AG0139_putative.VP4 333 9e-116
Alpavirinae_Human_gut_31_037_Microviridae_AG0300_putative.VP4 98.2 3e-26
Alpavirinae_Human_feces_A_048_Microviridae_AG086_putative.VP4 96.7 2e-25
Alpavirinae_Human_feces_A_032_Microviridae_AG0216_putative.VP4 92.4 5e-24
Alpavirinae_Human_feces_B_021_Microviridae_AG0372_putative.VP4 92.0 6e-24
Alpavirinae_Human_feces_A_047_Microviridae_AG0312_putative.VP4 90.1 2e-23
Alpavirinae_Human_feces_C_029_Microviridae_AG0108_putative.VP4 89.0 6e-23
Alpavirinae_Human_feces_B_023_Microviridae_AG0141_putative.VP4 89.0 7e-23
Alpavirinae_Human_feces_B_020_Microviridae_AG0349_putative.VP4 87.0 3e-22
Alpavirinae_Human_feces_A_016_Microviridae_AG002_putative.VP4 72.4 7e-17
> Alpavirinae_Human_gut_30_040_Microviridae_AG0139_putative.VP4
Length=376
Score = 333 bits (854), Expect = 9e-116, Method: Compositional matrix adjust.
Identities = 171/206 (83%), Positives = 189/206 (92%), Gaps = 1/206 (0%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 60
MLKVDIKHPEFKQIVLAS+GIG GY+DRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY
Sbjct 172 MLKVDIKHPEFKQIVLASSGIGKGYIDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 231
Query 61 KNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIAW 120
KNKIFTEKEREKMWINNLNRGL+WIYGEKVKADDW+TIDNLR YWQKYG E MGDNPIAW
Sbjct 232 KNKIFTEKEREKMWINNLNRGLLWIYGEKVKADDWETIDNLREYWQKYGRETMGDNPIAW 291
Query 121 NAMkerrkeekqrrAVALAKKQAEKFSTENLIEELPLQADFPMQEEKQEWDKLIEKYIQS 180
NAMKERRKEEKQRRA+A AKK AEKFSTENL ELPLQADFPMQE++++W+ +I +Y++
Sbjct 292 NAMKERRKEEKQRRAIAEAKKLAEKFSTENLT-ELPLQADFPMQEKEEKWEDIINQYVKD 350
Query 181 NYWLFERVRRCATSELFDALGVMEQA 206
N W FERVR+C T+E +DALG +E A
Sbjct 351 NMWTFERVRKCTTAEHYDALGEIEVA 376
> Alpavirinae_Human_gut_31_037_Microviridae_AG0300_putative.VP4
Length=304
Score = 98.2 bits (243), Expect = 3e-26, Method: Compositional matrix adjust.
Identities = 47/121 (39%), Positives = 72/121 (60%), Gaps = 1/121 (1%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 60
+ K D KH +F+ I L SAGIG GY+ R D + + TY RNGTK+ +P YY
Sbjct 171 ITKTDKKHKDFEPITLCSAGIGKGYLSRSDSELNRFR-EGKTTETYRLRNGTKLNLPIYY 229
Query 61 KNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIAW 120
+NK++T++EREK+++ + +G +WI G + DWKT + Q ++ GD+PI W
Sbjct 230 RNKLYTDEEREKLFLEKIKKGKVWICGRECNIKDWKTYSQILKEEQIKAKQLHGDSPIDW 289
Query 121 N 121
+
Sbjct 290 D 290
> Alpavirinae_Human_feces_A_048_Microviridae_AG086_putative.VP4
Length=332
Score = 96.7 bits (239), Expect = 2e-25, Method: Compositional matrix adjust.
Identities = 52/120 (43%), Positives = 71/120 (59%), Gaps = 1/120 (1%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 60
M K+D KHP+F VL S GIGAGY R D K K + TY RNG K+ +P YY
Sbjct 171 MTKIDEKHPDFVGKVLCSRGIGAGYTKRPDAAKHKYK-KGETIETYRLRNGAKINLPIYY 229
Query 61 KNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIAW 120
+NK+FTEKERE ++I+ + +G+I++ G+KV DD + L +K C + G N W
Sbjct 230 RNKLFTEKERELLFIDKIEKGIIYVMGQKVHRDDEEYYLQLLDEGRKTECRLYGYNLQNW 289
> Alpavirinae_Human_feces_A_032_Microviridae_AG0216_putative.VP4
Length=314
Score = 92.4 bits (228), Expect = 5e-24, Method: Compositional matrix adjust.
Identities = 51/121 (42%), Positives = 71/121 (59%), Gaps = 3/121 (2%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVA-TYTFRNGTKMAMPKY 59
MLK+ K P+F+ V+ SAGIG Y Y ++ Y+ TY NG ++ +PKY
Sbjct 173 MLKICEKWPDFRGKVMCSAGIGCRY--ETSYNAKRNRYRGKETKETYKLENGRELPLPKY 230
Query 60 YKNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIA 119
Y +KI+TE+EREK+WI RG +I GEKV D+ + DNL Y+QK ++ GD P
Sbjct 231 YHDKIYTEEEREKLWIIKQERGYRYIAGEKVSTDNLEEWDNLTKYYQKRAEQLYGDKPED 290
Query 120 W 120
W
Sbjct 291 W 291
> Alpavirinae_Human_feces_B_021_Microviridae_AG0372_putative.VP4
Length=332
Score = 92.0 bits (227), Expect = 6e-24, Method: Compositional matrix adjust.
Identities = 46/96 (48%), Positives = 62/96 (65%), Gaps = 1/96 (1%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 60
M K+D +HP F VL S GIGAGY R D K K + TY RNG K+ +P YY
Sbjct 171 MTKIDEEHPNFVGKVLCSKGIGAGYTKRPDAAKHKYK-KGETIETYRLRNGAKINLPIYY 229
Query 61 KNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWK 96
+NK+FTEKERE ++I+ +++G+I++ G KV DD K
Sbjct 230 RNKLFTEKERELLFIDKIDKGIIYVLGTKVHRDDEK 265
> Alpavirinae_Human_feces_A_047_Microviridae_AG0312_putative.VP4
Length=332
Score = 90.1 bits (222), Expect = 2e-23, Method: Compositional matrix adjust.
Identities = 48/121 (40%), Positives = 74/121 (61%), Gaps = 3/121 (2%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYK-NINVATYTFRNGTKMAMPKY 59
M K+D +H +F VL S GIGAGY+ R D +K YK + TY RNG+K+ +P Y
Sbjct 171 MTKIDEQHKDFIGKVLCSKGIGAGYIKRDD--AKKHTYKRGETIETYRLRNGSKINLPIY 228
Query 60 YKNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIA 119
Y+N++FTE+ERE ++++ + +G+I++ G+KV DD + L +K C + G N
Sbjct 229 YRNQLFTEEEREALFLDKIEKGIIYVMGQKVHRDDEEYYLQLLDEGRKTECRLYGYNLQN 288
Query 120 W 120
W
Sbjct 289 W 289
> Alpavirinae_Human_feces_C_029_Microviridae_AG0108_putative.VP4
Length=291
Score = 89.0 bits (219), Expect = 6e-23, Method: Compositional matrix adjust.
Identities = 47/121 (39%), Positives = 74/121 (61%), Gaps = 3/121 (2%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYK-NINVATYTFRNGTKMAMPKY 59
M K+D +H +F VL S GIGAGY+ R D +K YK + TY RNG+K+ +P Y
Sbjct 130 MTKIDEQHKDFIGKVLCSKGIGAGYIKRDD--AKKHTYKPGETIETYRLRNGSKINLPIY 187
Query 60 YKNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIA 119
Y+N++FTE+E+E ++++ + +G+I++ G+KV DD + L +K C + G N
Sbjct 188 YRNQLFTEEEKEALFLDKIEKGIIYVMGQKVHRDDEEYYLQLLNEGRKTECRLYGYNLQN 247
Query 120 W 120
W
Sbjct 248 W 248
> Alpavirinae_Human_feces_B_023_Microviridae_AG0141_putative.VP4
Length=316
Score = 89.0 bits (219), Expect = 7e-23, Method: Compositional matrix adjust.
Identities = 49/122 (40%), Positives = 70/122 (57%), Gaps = 3/122 (2%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINV-ATYTFRNGTKMAMPKY 59
MLK F+ VL S GIG Y+DRLD ++ Y+ N +Y R+G K+ +P Y
Sbjct 166 MLKYTPVDKNFEPKVLCSKGIGINYLDRLDS--KRNTYRENNTDESYMLRSGRKINLPDY 223
Query 60 YKNKIFTEKEREKMWINNLNRGLIWIYGEKVKADDWKTIDNLRAYWQKYGCEVMGDNPIA 119
YK KI+TE+EREK+WI +G +I GEKV D+ + + L YW+K E+ + P
Sbjct 224 YKRKIYTEEEREKLWIEKQEKGYRYIMGEKVSTDNEEKVYKLMEYWRKKAKELYNEKPQE 283
Query 120 WN 121
W+
Sbjct 284 WD 285
> Alpavirinae_Human_feces_B_020_Microviridae_AG0349_putative.VP4
Length=332
Score = 87.0 bits (214), Expect = 3e-22, Method: Compositional matrix adjust.
Identities = 42/94 (45%), Positives = 61/94 (65%), Gaps = 1/94 (1%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLDYLWQKQNYKNINVATYTFRNGTKMAMPKYY 60
M KVDI HP+F VL S GIGAGY R D K N TY RNG K+ +P YY
Sbjct 171 MTKVDIDHPDFVGQVLCSKGIGAGYTKREDANNHKYTKGKTN-ETYRLRNGAKINLPIYY 229
Query 61 KNKIFTEKEREKMWINNLNRGLIWIYGEKVKADD 94
+N++F+E+ERE ++++ + +G+I++ G+KV D+
Sbjct 230 RNQLFSEEEREMLFLDKIEKGIIYVMGQKVHRDN 263
> Alpavirinae_Human_feces_A_016_Microviridae_AG002_putative.VP4
Length=355
Score = 72.4 bits (176), Expect = 7e-17, Method: Compositional matrix adjust.
Identities = 41/96 (43%), Positives = 58/96 (60%), Gaps = 6/96 (6%)
Query 1 MLKVDIKHPEFKQIVLASAGIGAGYMDRLD--YLWQKQNYKNINVATYTFRNGTKMAMPK 58
M K D+ +PE+ VL S G+GAGY+ R+ + W ++N K Y R GT +A+PK
Sbjct 177 MTKKDMDNPEYTGKVLCSPGLGAGYVKRIGKRHEWNEENTK----EDYYTRQGTYIALPK 232
Query 59 YYKNKIFTEKEREKMWINNLNRGLIWIYGEKVKADD 94
YYK K+FTE +RE++WI N G ++ KVK D
Sbjct 233 YYKYKLFTEDQREQLWIYRENSGEKFVGNFKVKITD 268
Lambda K H a alpha
0.319 0.134 0.416 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: 15519306