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-8_CDS_annotation_glimmer3.pl_2_1
Length=461
Score E
Sequences producing significant alignments: (Bits) Value
Alpavirinae_Human_feces_D_015_Microviridae_AG020_putative.VP4 850 0.0
Alpavirinae_Human_feces_A_034_Microviridae_AG0102_putative.VP4 147 2e-40
Alpavirinae_Human_feces_D_031_Microviridae_AG0423_putative.VP4 147 2e-40
Alpavirinae_Human_feces_D_008_Microviridae_AG0100_putative.VP4 142 6e-39
Alpavirinae_Human_feces_C_043_Microviridae_AG0321_putative.VP4 142 1e-38
Alpavirinae_Human_gut_33_005_Microviridae_AG0180_putative.VP4 130 9e-35
Alpavirinae_Human_feces_B_039_Microviridae_AG093_putative.VP4 127 1e-33
Alpavirinae_Human_feces_E_011_Microviridae_AG0385_putative.VP4 125 9e-33
Alpavirinae_Human_gut_22_017_Microviridae_AG0393_putative.VP4 105 2e-26
Alpavirinae_Human_gut_33_017_Microviridae_AG0152_putative.VP4 103 1e-25
> Alpavirinae_Human_feces_D_015_Microviridae_AG020_putative.VP4
Length=563
Score = 850 bits (2197), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 410/461 (89%), Positives = 436/461 (95%), Gaps = 0/461 (0%)
Query 1 MLMDSRVNKNIPDFMSAKVNRPYMLEHLRLLEADRYKALALRYPNFISKFRPFILRSIPR 60
ML DSRVNK IPDFMSA+VNRPYMLEHLRLLEADRYKALALRYPNFISK RP+ILRSIPR
Sbjct 103 MLTDSRVNKKIPDFMSAEVNRPYMLEHLRLLEADRYKALALRYPNFISKARPYILRSIPR 162
Query 61 VSKLQNFKDEYFEELVWMLPEIAESLKKKNNTDASGAFPQFKGLLKYVNIRDYQLFAKRL 120
VSKLQNFKDEYFEELVWMLPEIAESLKKKNNTDA+GAFPQFKGLLKYVNIRDYQLFAKRL
Sbjct 163 VSKLQNFKDEYFEELVWMLPEIAESLKKKNNTDANGAFPQFKGLLKYVNIRDYQLFAKRL 222
Query 121 RKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVD 180
RKYLSKK+GKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVD
Sbjct 223 RKYLSKKVGKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVD 282
Query 181 TQLAREQANSYVANYLNSVVSIPFVYKAKKSIRPRSRFSNLFGFEEVKKGIQHASDKRSA 240
TQLAREQANSYV+NYLNSVVSIPFVYKAKKSIRPRSRFSNLFGFEEVK+GI+ A DKR+A
Sbjct 283 TQLAREQANSYVSNYLNSVVSIPFVYKAKKSIRPRSRFSNLFGFEEVKEGIRKAQDKRAA 342
Query 241 LFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDGSFLRRSSQIYEVVQRVLRLFARNEP 300
LFDG+ YISNQKFVRYVPSGS IDRLFPRFT+YDGSFLRRSSQIY VVQ++LRLFARNEP
Sbjct 343 LFDGLSYISNQKFVRYVPSGSLIDRLFPRFTYYDGSFLRRSSQIYGVVQQILRLFARNEP 402
Query 301 FKKATPRNVSEFVCWWCEYNFRRGCQIKDFPDYMQEFLHIVRLDGYSFLNWDVPIGKISR 360
F++ATP NVSEF+CWWC YNFR+GCQIKDFPDYMQEFLHIVRLD SFLNWD+P GKISR
Sbjct 403 FEEATPGNVSEFICWWCAYNFRQGCQIKDFPDYMQEFLHIVRLDRESFLNWDIPKGKISR 462
Query 361 FFYRFNRFEAMKGSLRSKLKAVSLFYDYRDYQSLKNQLSLQELVFAELGYSDELFDSFYV 420
F YRFN FE MKGS RSKLKAV LFYDYRDYQSLKNQL +Q+LVF+ELGYSDEL DSFYV
Sbjct 463 FLYRFNMFEKMKGSFRSKLKAVELFYDYRDYQSLKNQLYMQQLVFSELGYSDELLDSFYV 522
Query 421 KPHIKVLKNAYIDKWKDVNYKEVHYFRVKHKVLNDENNIFL 461
KP++KVLKN Y +KW D NY EVHYFRVKHKVLND+N++FL
Sbjct 523 KPNLKVLKNIYTEKWHDTNYHEVHYFRVKHKVLNDQNDVFL 563
> Alpavirinae_Human_feces_A_034_Microviridae_AG0102_putative.VP4
Length=539
Score = 147 bits (370), Expect = 2e-40, Method: Compositional matrix adjust.
Identities = 119/399 (30%), Positives = 182/399 (46%), Gaps = 52/399 (13%)
Query 99 PQFKGLLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFD 158
P +GL+ Y+N D QLF KRL + + + EKI+ YVV EY P TFRPHFHIL F D
Sbjct 149 PYMEGLVGYLNYHDIQLFFKRLNQNIRRITN--EKIYYYVVGEYGPTTFRPHFHILLFHD 206
Query 159 SDEIAKNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIPFVYKAKKSIRPRSRF 218
S ++ ++ RQ V +SWR G DTQ A+ YVA Y+NS +P +K + I+P RF
Sbjct 207 SRKLRESIRQFVSKSWRFGDSDTQPVWSSASCYVAGYVNSTACLPDFFKNSRHIKPFGRF 266
Query 219 SNLF---GFEEVKKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDG 275
S F F EV K + + S +DG N K P SHI+RL+PR
Sbjct 267 SVNFAESAFNEVFKP-EENEEIFSLFYDGRVLNLNGKPTIVRPKRSHINRLYPRLDKSKH 325
Query 276 SFLRRSSQIYEVVQRVLRLFARNEPFKKATPRNVSEFVCWWCEYNFRRGCQIKDFPDYMQ 335
+ + +I VV R+ ++ A+ + + +S+ V + + C + D ++
Sbjct 326 ATVVDDIRIASVVSRLPQVVAKFGFIDEVSDFELSKRVYYLIRRHLEVDCSLDYASDELR 385
Query 336 EFLHIVRLDGYSFLNWDVPIGKISRFFYRFNRF-----------EAMKGSLRSKLKAVSL 384
+ RL Y + + I R ++ A G L ++A+
Sbjct 386 VIYNACRLSLYINFSDESGCAAIYRLLLQYRNLVKNWITAPVGSVAFTGQLHRAVRAIHS 445
Query 385 FYDYRDYQSLKNQL----------------------SLQELVFAELGYSDELFDSFYVKP 422
FYDY +SL +QL L ++ +S+ +FDS
Sbjct 446 FYDYCSRRSLHDQLVKVEKWSNDSYVRANLSIYYFYPLTDVDIMMKSFSEIVFDS----- 500
Query 423 HIKVLKNAYIDKWKDVNYKEVHYFRVKHKVLNDENNIFL 461
+VL+ +Y D Y + R+KHK LND+N++ +
Sbjct 501 --QVLRASYAD------YAADNRERIKHKALNDKNSLLI 531
> Alpavirinae_Human_feces_D_031_Microviridae_AG0423_putative.VP4
Length=532
Score = 147 bits (370), Expect = 2e-40, Method: Compositional matrix adjust.
Identities = 92/227 (41%), Positives = 126/227 (56%), Gaps = 16/227 (7%)
Query 85 SLKKKNNTDASGAFPQFKGLLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSP 144
S +K N +G +P G + Y+ D L+ KR+RKY+SK +G E IH+Y+V EY P
Sbjct 137 SYAQKANLSFNGKYPALSGRIPYLLHGDVSLYMKRVRKYISK-LGINETIHTYIVGEYGP 195
Query 145 KTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIPF 204
+FRPHFH+L FFDSDE+A+N + WR GRVD +R A YV++YLNS SIP
Sbjct 196 SSFRPHFHLLLFFDSDELAQNIIRIASSCWRFGRVDCSASRGDAEDYVSSYLNSFSSIPL 255
Query 205 VYKAKKSIRPRSRFSNLFGFEEVKKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHID 264
+ ++IRP +RFSN FG+ + I+ A +S FD I N K +P
Sbjct 256 HIQEIRAIRPFARFSNKFGYSFFESSIKKA---QSGNFDE---ILNGK---SLPYNGFDT 306
Query 265 RLFPRFTHYDGSF----LRRSSQIYEVVQ--RVLRLFARNEPFKKAT 305
+FP D F LRR S I+E+ + R R F + F+KAT
Sbjct 307 TIFPWRAIIDTCFYRPALRRHSDIHELTEILRYARNFKQRPAFQKAT 353
> Alpavirinae_Human_feces_D_008_Microviridae_AG0100_putative.VP4
Length=532
Score = 142 bits (359), Expect = 6e-39, Method: Compositional matrix adjust.
Identities = 92/227 (41%), Positives = 125/227 (55%), Gaps = 16/227 (7%)
Query 85 SLKKKNNTDASGAFPQFKGLLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSP 144
S +K N G +P + Y+ D L+ KR+RKY+SK +G E IH+YVV EY P
Sbjct 137 SYAQKANLSFDGKYPALSDRIPYLLHDDVSLYMKRVRKYISK-LGINETIHTYVVGEYGP 195
Query 145 KTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIPF 204
TFRPHFH+L FF+SDE+A++ + WR GRVD +R A YV++YLNS SIP
Sbjct 196 VTFRPHFHLLLFFNSDELAQSIVRIARSCWRFGRVDCSASRGDAEDYVSSYLNSFSSIPL 255
Query 205 VYKAKKSIRPRSRFSNLFGFEEVKKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHID 264
+ ++IRP +RFSN FGF + I+ A +S FD I N K +P
Sbjct 256 HIQEIRAIRPFARFSNKFGFSFFESSIKKA---QSGDFDE---ILNGK---SLPYNGFNT 306
Query 265 RLFPRFTHYDGSF----LRRSSQIYEVVQ--RVLRLFARNEPFKKAT 305
+FP D F LRR S I+E+ + R +R F + F+KAT
Sbjct 307 TIFPWRAIIDTCFYRPALRRRSDIHELTEILRYVRNFKQRPAFQKAT 353
> Alpavirinae_Human_feces_C_043_Microviridae_AG0321_putative.VP4
Length=546
Score = 142 bits (357), Expect = 1e-38, Method: Compositional matrix adjust.
Identities = 94/275 (34%), Positives = 147/275 (53%), Gaps = 19/275 (7%)
Query 84 ESLKKKNNTDASGAFPQFKGLLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYS 143
E+ KK+ N D G +P K + Y++ +D QLF KR+RK + EKIH+Y+V EYS
Sbjct 131 ENFKKQANLDVKGCYPHLKDMYGYLSRKDCQLFMKRVRKQIRNYTD--EKIHTYIVGEYS 188
Query 144 PKTFRPHFHILFFFDSDEIAKNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIP 203
PK FRPHFHILFFF+S+E++++F V W+ G VD +R A SYVA Y+NS +P
Sbjct 189 PKHFRPHFHILFFFNSNELSQSFGSIVRSCWKFGLVDWSQSRGDAESYVAGYVNSFARLP 248
Query 204 FVYKAKKSIRPRSRFSNLFG---FEEVKKGIQHA-SDKRSALF----DGVPYISNQKFVR 255
+ + I P RFSN F F++ K+ ++ + +++ +F +GV + N K +
Sbjct 249 YHLGSSPKIAPFGRFSNHFSESCFDDAKQTLRDSFFGQKTPVFAPFLNGVTNLVNGKLLL 308
Query 256 YVPSGSHIDRLFPRFTHYDG-----SFLRRSSQIYEVVQRVLRLFARNEPFKKATPRNVS 310
PS S +D F R DG L + VV++ R FAR+ T N +
Sbjct 309 TRPSRSCVDSCFFRKAR-DGRLSSHELLHLIRAVCHVVEQGKRFFARDG--LNYTFLNHA 365
Query 311 EFVCWWCE-YNFRRGCQIKDFPDYMQEFLHIVRLD 344
F+ C+ + +++ ++ P + L+ R+D
Sbjct 366 RFIVKACKSFRYQKREKLLSLPSRLVTLLYYSRVD 400
> Alpavirinae_Human_gut_33_005_Microviridae_AG0180_putative.VP4
Length=536
Score = 130 bits (327), Expect = 9e-35, Method: Compositional matrix adjust.
Identities = 118/429 (28%), Positives = 193/429 (45%), Gaps = 38/429 (9%)
Query 66 NFKDEYFEELVWMLPEIAESLKKKNNTDASG--------AFPQFKGLLKYVNIRDYQLFA 117
+F DE F+ + E +L K + D + +P LL Y+N RD QLF
Sbjct 107 SFCDEEFDYPTNLRDEAVTALLDKTHLDRTVYPDGRSVVKYPNMGDLLPYLNYRDVQLFH 166
Query 118 KRLRKYLSKKIGKY--EKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAKNFRQAVYQSWR 175
KR+ +++I KY EKI+SY V EY PKTFRPHFH+LFFFDS+ +A+ F Q V ++WR
Sbjct 167 KRI----NQQIKKYTDEKIYSYTVGEYGPKTFRPHFHLLFFFDSERLAQVFGQLVDKAWR 222
Query 176 LGRVDTQLAREQANSYVANYLNSVVSIPFVYKAKKSIRPRSRFSNLFGFEEVKKGIQHAS 235
G DTQ A+SYVA YLNS +P Y+ + I P RFS F + +
Sbjct 223 FGNSDTQRVWSSASSYVAGYLNSSHCLPEFYRCNRKIAPFGRFSQYFAERPFIEAFKPEE 282
Query 236 DKR--SALFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDGSFLRRSSQIYEVVQRVLR 293
+++ +G+ K P S I+RL+P S + + + V ++ +
Sbjct 283 NEKVFDKFVNGIYLSLGGKPTLCRPKRSLINRLYPVLDRSAVSDVDSNVRTALFVSKIPQ 342
Query 294 LFARNEPFKKATPRNVSEFVCWWCEYNFRRGCQIKDFPDYMQEFLHIVRLDGYSFLNWDV 353
+ A+ + T ++ + + + + + P+ ++ + RL Y +
Sbjct 343 VLAKFGFLDEVTLFEQAKRTFFVIKKYLQVDHSLDNAPETLRFIYNACRLSLYLNFSELE 402
Query 354 PIGKISRFFYRFNRFE-----------AMKGSLRSKLKAVSLFYDYRDYQSLKNQLSLQE 402
+ R F + A G LR + + FY Y D + L +QL ++
Sbjct 403 GCSAVYRLFLAYRNLCDHWITVPSNHIAFYGQLRKAFRTIYAFYSYMDSKYLHDQL-VKV 461
Query 403 LVFAELGYSDELFDSFYVKPHI--KVLKNAY-----IDKWKDVNYKEV---HYFRVKHKV 452
+++ Y D Y P ++++++Y + + Y EV + R+KHK
Sbjct 462 QSWSQNNYLSTQVDFRYFYPLTDGELMRSSYREVLALSSFCRAAYAEVAADNRQRIKHKY 521
Query 453 LNDENNIFL 461
LND N +
Sbjct 522 LNDLNCALI 530
> Alpavirinae_Human_feces_B_039_Microviridae_AG093_putative.VP4
Length=559
Score = 127 bits (318), Expect = 1e-33, Method: Compositional matrix adjust.
Identities = 73/177 (41%), Positives = 104/177 (59%), Gaps = 13/177 (7%)
Query 104 LLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIA 163
L+ ++N D Q + KRLRKYL +++GKYE H Y V EY P FRPH+H+L F +SD+++
Sbjct 179 LIPFLNYVDVQNYIKRLRKYLFQQLGKYETFHFYAVGEYGPVHFRPHYHLLLFTNSDKVS 238
Query 164 KNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIPFVYKAKKSIRPRSRFSNLFG 223
+ R +SW+LGR D Q + A SYVA+Y+NS+ S P +Y++ ++ RP+SR S G
Sbjct 239 EVLRYCHDKSWKLGRSDFQRSAGGAGSYVASYVNSLCSAPLLYRSCRAFRPKSRAS--VG 296
Query 224 FEEVKKGIQHASD---------KRSALFDGVPYISNQKFVRYVPSGSHIDRLFPRFT 271
F E KG D K ++ +G Y N VR P S+I L PRF+
Sbjct 297 FFE--KGCDFVEDDDPYAQIEQKIDSVVNGRVYNFNGVSVRSTPPLSYIRTLLPRFS 351
> Alpavirinae_Human_feces_E_011_Microviridae_AG0385_putative.VP4
Length=611
Score = 125 bits (314), Expect = 9e-33, Method: Compositional matrix adjust.
Identities = 117/353 (33%), Positives = 168/353 (48%), Gaps = 45/353 (13%)
Query 55 LRSIPR-VS-------KLQNFKDEYFEELVWM-LPEIAESLKKKNNTDASG-------AF 98
+SIPR VS + ++F DE + + M L E+ + L K N G +
Sbjct 135 FQSIPRDVSVKSKGSFRFRSFDDEPLKFCIPMKLTELQDILIKANGRYDYGKKKVVYPSL 194
Query 99 PQFKGLLKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFD 158
K + + RD +LF KRLR+ L KI YVVSEY P+T+RPH+H L FF+
Sbjct 195 ADCKLQIPVLQSRDIELFFKRLRRNLDSHGFTSSKICYYVVSEYGPQTYRPHWHCLLFFN 254
Query 159 SDEIAKNFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIPFVYKAKKSIRPRSRF 218
S+EI + R+ + ++W GR+D L+R A SYVA Y+NS +PF+Y +K IRPRS
Sbjct 255 SEEITQTLREDISKAWSYGRIDYSLSRGAAASYVAAYVNSAACLPFLYVGQKEIRPRSFH 314
Query 219 SNLFGFEEV---KKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDG 275
S FG +V + S FDGV SN K V P S +FPRF++
Sbjct 315 SKGFGSNKVFPKSSDVSEISKISDLFFDGVNVDSNGKVVNIRPVRSCELAVFPRFSN--- 371
Query 276 SFLRRSSQIYEVVQRVL----RLFAR-----NEPFKKATPRNVSEFVCWWCEY------- 319
F S ++ Q V+ RL +R + P + +S+ V + EY
Sbjct 372 DFFSDSDTCCKLFQSVIETPERLVSRGYLGIDTPNFGSDDFRLSDLVRAYSEYYERNFTD 431
Query 320 -----NFRRGCQIKDFPDYMQEFLHIVRLDGYSFLNWDVPIGKISRFFYRFNR 367
F RG + +D+ D + F DGY F N D+ G++ R F + R
Sbjct 432 FSFSLRFLRGYRTRDYADELI-FREARLFDGYVF-NKDMIFGRLYRLFAKVLR 482
> Alpavirinae_Human_gut_22_017_Microviridae_AG0393_putative.VP4
Length=562
Score = 105 bits (263), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 87/286 (30%), Positives = 138/286 (48%), Gaps = 43/286 (15%)
Query 53 FILRSIPRVSKLQ--------NFKDEYFEELVWMLPEIAESLKKKNNTDASGAFPQFKGL 104
F RS+PR S ++ FKD + M P+ S+ K N + P
Sbjct 110 FGFRSVPRSSSVKLKSSTVERTFKDPDVKFSYPMKPKELLSILGKINHNVPNRIP----- 164
Query 105 LKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAK 164
Y+ RD LF KRLR Y EK+ Y VSEY P +FRPH+H+L F +S+ ++
Sbjct 165 --YICNRDLDLFLKRLRSYYLD-----EKLRYYAVSEYGPTSFRPHWHLLLFSNSERFSR 217
Query 165 NFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIP-FVYKAKKSIRPRS------R 217
+ V ++W GR D L+R A YVA+Y+NS V++P F + K +RP+S
Sbjct 218 TVCENVSKAWSYGRCDASLSRGFAAPYVASYVNSFVALPDFYTQMPKVVRPKSFHSIGFT 277
Query 218 FSNLFGFEEVKKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDGSF 277
SNLF + + +DK +GV + F P+ ++ RLFPRF+ +
Sbjct 278 ESNLFPRKVRVAEVDEITDK---CLNGVRVERDGYFRTIKPTWPYLLRLFPRFS---DAI 331
Query 278 LRRSSQIYEVV-------QRVLRLFARN---EPFKKATPRNVSEFV 313
+ S IY+++ +RV+R + +PF +++ +++ F
Sbjct 332 RKSPSSIYQLLFAAFTAPERVIRSGCADIGCDPFGESSKQSILSFC 377
> Alpavirinae_Human_gut_33_017_Microviridae_AG0152_putative.VP4
Length=565
Score = 103 bits (258), Expect = 1e-25, Method: Compositional matrix adjust.
Identities = 84/251 (33%), Positives = 124/251 (49%), Gaps = 33/251 (13%)
Query 53 FILRSIPRVS--KLQN------FKDEYFEELVWMLPEIAESLKKKNNTDASGAFPQFKGL 104
F S+PR + KL+N FKD M P+ S+ K N + P
Sbjct 110 FGFCSVPRSASVKLKNSTVERTFKDPEVRFSYPMKPKELLSILDKINHNVPNRIP----- 164
Query 105 LKYVNIRDYQLFAKRLRKYLSKKIGKYEKIHSYVVSEYSPKTFRPHFHILFFFDSDEIAK 164
Y+ RD LF KRLR Y YEK+ Y VSEY P ++RPH+H+L F +S++ +K
Sbjct 165 --YICNRDLDLFLKRLRSYY-----PYEKLRYYAVSEYGPTSYRPHWHLLLFSNSEQFSK 217
Query 165 NFRQAVYQSWRLGRVDTQLAREQANSYVANYLNSVVSIP-FVYKAKKSIRPRS------R 217
+ V ++W GR D L+R A YVA+Y+NS V++P F + + +RP+S
Sbjct 218 TILENVSKAWSYGRCDASLSRGFAAPYVASYVNSFVALPSFYTEMPRFLRPKSFHSIGFT 277
Query 218 FSNLFGFEEVKKGIQHASDKRSALFDGVPYISNQKFVRYVPSGSHIDRLFPRFTHYDGSF 277
SNLF + I +DK +GV + F PS ++ RLFPRF+ +
Sbjct 278 ESNLFPRKVRISEIDEVTDK---CLNGVRVERDGYFRILKPSWPYLLRLFPRFS---DAI 331
Query 278 LRRSSQIYEVV 288
+ S IY+++
Sbjct 332 RKSPSSIYQLL 342
Lambda K H a alpha
0.325 0.140 0.424 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: 41249949