BLASTP 2.11.0+ 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: Dcitr_OGSv2.0_pep.fa 25,292 sequences; 11,360,065 total letters Query= Untitled_sequence Length=697 Score E Sequences producing significant alignments: (Bits) Value DcitrP015685.1.1Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resi... 1395 0.0 DcitrP017365.1.2Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resi... 75.5 2e-15 DcitrP017365.1.1Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resi... 75.5 2e-15 DcitrP015465.1.1Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resi... 69.7 2e-14 DcitrP064815.1.1Pro-resilin (AHRD V3.11 *-* tr|A0A067R5G2|A0A067R... 71.2 1e-12 DcitrP017355.1.1Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resi... 60.8 2e-11 DcitrP017370.1.2Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resi... 62.0 4e-11 DcitrP017370.1.1Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resi... 62.0 4e-11 DcitrP017355.1.2Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resi... 62.0 4e-11 DcitrP084685.1.1Pro-resilin (AHRD V3.11 *-* tr|A0A067QVW2|A0A067Q... 65.1 5e-11 DcitrP084700.1.1Pro-resilin (AHRD V3.11 *-* tr|A0A067QVW2|A0A067Q... 65.1 5e-11 >DcitrP015685.1.1 Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resilin tr|A0A0A9Z6M1|A0A0A9Z6M1_LYGHE). Similar to MCOT00296.0.CO XP_017298434.1. AED 0.15 Length=697 Score = 1395 bits (3612), Expect = 0.0, Method: Compositional matrix adjust. Identities = 697/697 (100%), Positives = 697/697 (100%), Gaps = 0/697 (0%) Query 1 METLQLSNTLLFCFSLFQLPKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDG 60 METLQLSNTLLFCFSLFQLPKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDG Sbjct 1 METLQLSNTLLFCFSLFQLPKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDG 60 Query 61 RMQIVSYTADNSGYRADVRYVMDETPKNNFDEKFPNYVHDFTNNGHSEDNSFDQYRDNHI 120 RMQIVSYTADNSGYRADVRYVMDETPKNNFDEKFPNYVHDFTNNGHSEDNSFDQYRDNHI Sbjct 61 RMQIVSYTADNSGYRADVRYVMDETPKNNFDEKFPNYVHDFTNNGHSEDNSFDQYRDNHI 120 Query 121 RDYNPSLYFAPTVAPSVAPASTADPNSINHVNSPEYLEDYQVYNPQPGPGHPSGLSYYAE 180 RDYNPSLYFAPTVAPSVAPASTADPNSINHVNSPEYLEDYQVYNPQPGPGHPSGLSYYAE Sbjct 121 RDYNPSLYFAPTVAPSVAPASTADPNSINHVNSPEYLEDYQVYNPQPGPGHPSGLSYYAE 180 Query 181 STPSTPAPAHLKQPKELVHDVNYLLNLVTPTKHSLPLYQHAAKLKNAQVSYETTTQNTEL 240 STPSTPAPAHLKQPKELVHDVNYLLNLVTPTKHSLPLYQHAAKLKNAQVSYETTTQNTEL Sbjct 181 STPSTPAPAHLKQPKELVHDVNYLLNLVTPTKHSLPLYQHAAKLKNAQVSYETTTQNTEL 240 Query 241 DNELYGGKYNYNPVKIESQNSNKNQGMRYHYESMTTKYPGANQGQGFRPSLQSYYAPSAL 300 DNELYGGKYNYNPVKIESQNSNKNQGMRYHYESMTTKYPGANQGQGFRPSLQSYYAPSAL Sbjct 241 DNELYGGKYNYNPVKIESQNSNKNQGMRYHYESMTTKYPGANQGQGFRPSLQSYYAPSAL 300 Query 301 VHVEPPNLGPAQPIQANYVTLPRDKIPYKYPQSFVSPNNIQDSNYQANSVKNSEVKQSEK 360 VHVEPPNLGPAQPIQANYVTLPRDKIPYKYPQSFVSPNNIQDSNYQANSVKNSEVKQSEK Sbjct 301 VHVEPPNLGPAQPIQANYVTLPRDKIPYKYPQSFVSPNNIQDSNYQANSVKNSEVKQSEK 360 Query 361 TTTEESLTMRPHIKYNTKPAVLQNSKPQKSTILHQPATPTPQSPKQYVSQTPSPVYYTSS 420 TTTEESLTMRPHIKYNTKPAVLQNSKPQKSTILHQPATPTPQSPKQYVSQTPSPVYYTSS Sbjct 361 TTTEESLTMRPHIKYNTKPAVLQNSKPQKSTILHQPATPTPQSPKQYVSQTPSPVYYTSS 420 Query 421 VTTAVPFNEISQHTSGTTLNSYEYSGEYYTKPIEEEEEIKVQTYKQPKKQFSKLVLPVTT 480 VTTAVPFNEISQHTSGTTLNSYEYSGEYYTKPIEEEEEIKVQTYKQPKKQFSKLVLPVTT Sbjct 421 VTTAVPFNEISQHTSGTTLNSYEYSGEYYTKPIEEEEEIKVQTYKQPKKQFSKLVLPVTT 480 Query 481 IRPNYGPSYTPKPHSPQPSPQPSHSPQTSYASQSPYTPQPSYSPQSPYTPQSAYTPQPSY 540 IRPNYGPSYTPKPHSPQPSPQPSHSPQTSYASQSPYTPQPSYSPQSPYTPQSAYTPQPSY Sbjct 481 IRPNYGPSYTPKPHSPQPSPQPSHSPQTSYASQSPYTPQPSYSPQSPYTPQSAYTPQPSY 540 Query 541 TPQPSYTPQPSYTPHPSATPQKLVFLQPSISPVYINSLEDTKPSVELSYLRDVPSDSVYL 600 TPQPSYTPQPSYTPHPSATPQKLVFLQPSISPVYINSLEDTKPSVELSYLRDVPSDSVYL Sbjct 541 TPQPSYTPQPSYTPHPSATPQKLVFLQPSISPVYINSLEDTKPSVELSYLRDVPSDSVYL 600 Query 601 KHNADPSSQELSEEAPRPFDSYSFSTSVSPSPTPLYTQASTSSEEYSKESLYSFVPSVRQ 660 KHNADPSSQELSEEAPRPFDSYSFSTSVSPSPTPLYTQASTSSEEYSKESLYSFVPSVRQ Sbjct 601 KHNADPSSQELSEEAPRPFDSYSFSTSVSPSPTPLYTQASTSSEEYSKESLYSFVPSVRQ 660 Query 661 EYDLGNAESMRSVEALLFLSRFYDGETAEEFCYNIRS 697 EYDLGNAESMRSVEALLFLSRFYDGETAEEFCYNIRS Sbjct 661 EYDLGNAESMRSVEALLFLSRFYDGETAEEFCYNIRS 697 >DcitrP017365.1.2 Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resilin tr|A0A146MB55|A0A146MB55_LYGHE). Similar to MCOT12931.0.CC XP_008473469.1. AED 0.15 Length=201 Score = 75.5 bits (184), Expect = 2e-15, Method: Compositional matrix adjust. Identities = 33/67 (49%), Positives = 45/67 (67%), Gaps = 0/67 (0%) Query 20 PKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTADNSGYRADVR 79 P+ + F+Y VKD +G DF H +G++ +G Y V LPDGR QIV+YTAD GY+ADV+ Sbjct 57 PEPFNFNYQVKDAVTGSDFGHKADSDGKTVQGSYNVALPDGRKQIVTYTADEGGYKADVK 116 Query 80 YVMDETP 86 Y + P Sbjct 117 YEGEAIP 123 >DcitrP017365.1.1 Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resilin tr|A0A146MB55|A0A146MB55_LYGHE). Similar to MCOT12931.0.CC XP_008473466.1. AED 0.19 Length=224 Score = 75.5 bits (184), Expect = 2e-15, Method: Compositional matrix adjust. Identities = 33/67 (49%), Positives = 45/67 (67%), Gaps = 0/67 (0%) Query 20 PKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTADNSGYRADVR 79 P+ + F+Y VKD +G DF H +G++ +G Y V LPDGR QIV+YTAD GY+ADV+ Sbjct 80 PEPFNFNYQVKDAVTGSDFGHKADSDGKTVQGSYNVALPDGRKQIVTYTADEGGYKADVK 139 Query 80 YVMDETP 86 Y + P Sbjct 140 YEGEAIP 146 >DcitrP015465.1.1 Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resilin tr|A0A067QU30|A0A067QU30_ZOONE). Similar to MCOT01979.0.CT XP_008484727.1. AED 0.00 Length=115 Score = 69.7 bits (169), Expect = 2e-14, Method: Compositional matrix adjust. Identities = 33/59 (56%), Positives = 42/59 (71%), Gaps = 1/59 (2%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTAD-NSGYRADVRY 80 Y F+Y+VKD G D+SH+ +G KGEYRV+LPDGR+QIV Y AD +G+ ADV Y Sbjct 3 YDFNYAVKDDYYGTDYSHNAISDGDQVKGEYRVQLPDGRLQIVKYLADWKTGFHADVSY 61 >DcitrP064815.1.1 Pro-resilin (AHRD V3.11 *-* tr|A0A067R5G2|A0A067R5G2_ZOONE). AED 0.00 Length=1265 Score = 71.2 bits (173), Expect = 1e-12, Method: Compositional matrix adjust. Identities = 32/61 (52%), Positives = 39/61 (64%), Gaps = 0/61 (0%) Query 20 PKNYAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTADNSGYRADVR 79 P NY FSY V D ++G F HS++ G +G Y V LPDGR QIV Y ADN GY+ +R Sbjct 655 PANYEFSYEVNDPATGTQFGHSESRQGDRAQGSYNVLLPDGRKQIVDYEADNEGYKPKIR 714 Query 80 Y 80 Y Sbjct 715 Y 715 >DcitrP017355.1.1 Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resilin tr|A0A146MCM5|A0A146MCM5_LYGHE). Similar to MCOT03199.1.CC XP_008473471.1. AED 0.22 Length=108 Score = 60.8 bits (146), Expect = 2e-11, Method: Compositional matrix adjust. Identities = 30/59 (51%), Positives = 40/59 (68%), Gaps = 1/59 (2%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTAD-NSGYRADVRY 80 Y F Y V D G DF ++ +G + KG+Y+V LPDGR+Q V+YTAD +GY ADV+Y Sbjct 3 YKFGYKVYDPHHGTDFGQNEHSDGDTVKGQYQVVLPDGRLQQVTYTADWKTGYHADVQY 61 >DcitrP017370.1.2 Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resilin tr|A0A146MCM5|A0A146MCM5_LYGHE). Similar to MCOT03199.1.CC XP_008473471.1. AED 0.18 Length=173 Score = 62.0 bits (149), Expect = 4e-11, Method: Compositional matrix adjust. Identities = 30/59 (51%), Positives = 40/59 (68%), Gaps = 1/59 (2%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTAD-NSGYRADVRY 80 Y F Y V D G DF ++ +G + KG+Y+V LPDGR+Q V+YTAD +GY ADV+Y Sbjct 68 YKFGYKVYDPHHGTDFGQNEHSDGDTVKGQYQVVLPDGRLQQVTYTADWKTGYHADVQY 126 >DcitrP017370.1.1 Cuticle Protein RR-2-RA. (AHRD V3.11 *-* Pro-resilin tr|A0A146MCM5|A0A146MCM5_LYGHE). Similar to MCOT03199.1.CC XP_008473471.1. AED 0.18 Length=173 Score = 62.0 bits (149), Expect = 4e-11, Method: Compositional matrix adjust. Identities = 30/59 (51%), Positives = 40/59 (68%), Gaps = 1/59 (2%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTAD-NSGYRADVRY 80 Y F Y V D G DF ++ +G + KG+Y+V LPDGR+Q V+YTAD +GY ADV+Y Sbjct 68 YKFGYKVYDPHHGTDFGQNEHSDGDTVKGQYQVVLPDGRLQQVTYTADWKTGYHADVQY 126 >DcitrP017355.1.2 Cuticle Protein RR-2-RB. (AHRD V3.11 *-* Pro-resilin tr|A0A146MCM5|A0A146MCM5_LYGHE). Similar to MCOT03199.1.CC XP_008473471.1. AED 0.09 Length=173 Score = 62.0 bits (149), Expect = 4e-11, Method: Compositional matrix adjust. Identities = 30/59 (51%), Positives = 40/59 (68%), Gaps = 1/59 (2%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTAD-NSGYRADVRY 80 Y F Y V D G DF ++ +G + KG+Y+V LPDGR+Q V+YTAD +GY ADV+Y Sbjct 68 YKFGYKVYDPHHGTDFGQNEHSDGDTVKGQYQVVLPDGRLQQVTYTADWKTGYHADVQY 126 >DcitrP084685.1.1 Pro-resilin (AHRD V3.11 *-* tr|A0A067QVW2|A0A067QVW2_ZOONE). Similar to MCOT13844.2.CT. AED 0.22 Length=454 Score = 65.1 bits (157), Expect = 5e-11, Method: Compositional matrix adjust. Identities = 29/58 (50%), Positives = 37/58 (64%), Gaps = 0/58 (0%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTADNSGYRADVRY 80 Y F Y V D +G DF S+ +G+ TKG Y V LPDGR Q V+Y +D SG+ A V+Y Sbjct 367 YEFGYRVHDSYTGSDFGQSEHRDGEVTKGSYHVLLPDGRHQTVNYWSDESGFHAKVKY 424 >DcitrP084700.1.1 Pro-resilin (AHRD V3.11 *-* tr|A0A067QVW2|A0A067QVW2_ZOONE). Similar to MCOT13844.2.CT. AED 0.06 Length=447 Score = 65.1 bits (157), Expect = 5e-11, Method: Compositional matrix adjust. Identities = 29/58 (50%), Positives = 37/58 (64%), Gaps = 0/58 (0%) Query 23 YAFSYSVKDQSSGDDFSHSQAHNGQSTKGEYRVKLPDGRMQIVSYTADNSGYRADVRY 80 Y F Y V D +G DF S+ +G+ TKG Y V LPDGR Q V+Y +D SG+ A V+Y Sbjct 360 YEFGYRVHDSYTGSDFGQSEHRDGEVTKGSYHVLLPDGRHQTVNYWSDESGFHAKVKY 417 Lambda K H a alpha 0.308 0.125 0.364 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: 5129355783 Database: Dcitr_OGSv2.0_pep.fa Posted date: Mar 4, 2018 10:37 PM Number of letters in database: 11,360,065 Number of sequences in database: 25,292 Matrix: BLOSUM62 Gap Penalties: Existence: 11, Extension: 1 Neighboring words threshold: 11 Window for multiple hits: 40