BLAST Resut
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= Eca_sc000071.1_g1080.1
(320 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
XP_010257112.1 PREDICTED: putative DNA-binding protein ESCAROLA ... 392 e-133
XP_010262897.1 PREDICTED: putative DNA-binding protein ESCAROLA ... 387 e-131
XP_002312113.2 hypothetical protein POPTR_0008s05890g [Populus t... 321 e-106
>XP_010257112.1 PREDICTED: putative DNA-binding protein ESCAROLA [Nelumbo nucifera]
Length = 395
Score = 392 bits (1007), Expect = e-133, Method: Compositional matrix adjust.
Identities = 229/329 (69%), Positives = 267/329 (81%), Gaps = 22/329 (6%)
Query: 1 MANRWWAENVGMGGFDPVLSTPQLHLRNPEEDGSHENTGLGRLGPGRDHQEQM------I 54
+ANRWWA NV +GG DPV STP LHLRN ++ E+ GLGRLGP R+ QE M
Sbjct: 80 LANRWWAGNVALGGVDPVSSTPSLHLRNTDD----EHGGLGRLGPRRE-QELMDPTTTTN 134
Query: 55 NTTTTTNSSGNVTNENLDEED---NDRDGDDQNNDHQMGCDGGSGGRRPRGRPSGSKNKP 111
++ + +N + N +N N DE+D NDRD +DQN H++ + G+G RRPRGRP+GSKNKP
Sbjct: 135 SSGSNSNVNPNASNHNADEDDSKDNDRDAEDQNVGHEV-IEAGTG-RRPRGRPAGSKNKP 192
Query: 112 KPPIIITRESPNALRSHVLEISSGSDITETISTFARRRQRGVCILSGNGVVTNVTLRQPT 171
KPPIIITRESPNALRSHVLEISSGSD+ E+I+TFARRRQRGVC+LSG+G+VTNVTLRQP
Sbjct: 193 KPPIIITRESPNALRSHVLEISSGSDVAESIATFARRRQRGVCVLSGSGIVTNVTLRQPA 252
Query: 172 APDAVVTLQGRFEILSLSGAFLPAPSPPIVTGLTIYLAGGQGQVVGGSVVGELVASGPVM 231
AP AVV+L GRFEILSLSGAFLPAPSPP TGLT+YL+GGQGQVVGGSVVG LVASGPVM
Sbjct: 253 APGAVVSLHGRFEILSLSGAFLPAPSPPGATGLTVYLSGGQGQVVGGSVVGALVASGPVM 312
Query: 232 VIAATFTNATYERLPIEDDPNSVGDGTQLPQSSGLNLENSTGVSASHSHGGLPDTSSLPL 291
VIAATFTNATYERLPIED+P G+G QL QSSG+N STG+SAS H LPD+SS+P+
Sbjct: 313 VIAATFTNATYERLPIEDEP--AGEGIQLQQSSGVN-SGSTGISASQPH-TLPDSSSMPI 368
Query: 292 YNLPPNLQSNGQVPHDPYWATPPRPPPSF 320
YNLPPNL NGQ+PHD +WA PRPPPS+
Sbjct: 369 YNLPPNLLPNGQMPHDVFWA--PRPPPSY 395
>XP_010262897.1 PREDICTED: putative DNA-binding protein ESCAROLA [Nelumbo nucifera]
Length = 360
Score = 387 bits (994), Expect = e-131, Method: Compositional matrix adjust.
Identities = 225/330 (68%), Positives = 268/330 (81%), Gaps = 23/330 (6%)
Query: 1 MANRWWAENVGMGGFDPVLSTPQLHLRNPEEDGSHENTGLGRLGPGRDHQEQMINTTTTT 60
+ANRWW NVG+GGFDPVLSTP L LRN ++D + GLGRLGP R+ +++++ TTT
Sbjct: 44 LANRWWVGNVGLGGFDPVLSTPSLQLRNTDDD----HGGLGRLGPRRE--QELMDPATTT 97
Query: 61 NSSG-------NVTNENLDEEDNDRD---GDDQNNDHQMGCDGGSGGRRPRGRPSGSKNK 110
NSSG N +N+N +++D+ + +DQN H+ G + GS RRPRGRP GSKNK
Sbjct: 98 NSSGSNSTANPNASNQNAEDDDSRNNDRDAEDQNAGHE-GVETGSA-RRPRGRPPGSKNK 155
Query: 111 PKPPIIITRESPNALRSHVLEISSGSDITETISTFARRRQRGVCILSGNGVVTNVTLRQP 170
PKPPIIITRESPNALRSHVLEISSGSD+ E+I+TFARRRQRGVC+LSG+GVVTNVTLRQP
Sbjct: 156 PKPPIIITRESPNALRSHVLEISSGSDVVESIATFARRRQRGVCVLSGSGVVTNVTLRQP 215
Query: 171 TAPDAVVTLQGRFEILSLSGAFLPAPSPPIVTGLTIYLAGGQGQVVGGSVVGELVASGPV 230
A AV+TL GRFEILSLSGAFLPAPSPP +GLT+YLAGGQGQVVGGSVVG L+ASGPV
Sbjct: 216 AASGAVITLHGRFEILSLSGAFLPAPSPPGASGLTVYLAGGQGQVVGGSVVGALMASGPV 275
Query: 231 MVIAATFTNATYERLPIEDDPNSVGDGTQLPQSSGLNLENSTGVSASHSHGGLPDTSSLP 290
MVIAATF NATYERLPI+D+P G+G QL Q+SG+N ++G+SAS SH LPD SSLP
Sbjct: 276 MVIAATFANATYERLPIKDEP--AGEGMQLQQTSGVN-SGTSGISASQSH-VLPDPSSLP 331
Query: 291 LYNLPPNLQSNGQVPHDPYWATPPRPPPSF 320
+YNLPPNL +NGQ+PHD +WA PPRPPPS+
Sbjct: 332 IYNLPPNLLTNGQMPHDVFWA-PPRPPPSY 360
>XP_002312113.2 hypothetical protein POPTR_0008s05890g [Populus trichocarpa]
EEE89480.2 hypothetical protein POPTR_0008s05890g
[Populus trichocarpa]
Length = 336
Score = 321 bits (823), Expect = e-106, Method: Compositional matrix adjust.
Identities = 183/331 (55%), Positives = 226/331 (68%), Gaps = 26/331 (7%)
Query: 1 MANRWWAENVGMGGFDPVLSTPQLHLRNPEEDGSHENTGLGRLGPGRDHQ--------EQ 52
MANRWWA NV M G DPV S P LHLRN EE+ + G RLGP R+ +
Sbjct: 1 MANRWWAGNVAMSGGDPVSSIPSLHLRNLEEEST--PPGSNRLGPRREQNFIDTNTNSPK 58
Query: 53 MINTTTTTNSSGNVTNENLDEEDNDRDG--DDQNNDH----QMGCDGGSGGRRPRGRPSG 106
TTT T S ++N +E+++ RD + ++ DH + GS RRPRGRP+G
Sbjct: 59 TTTTTTATAPSAQNQSQNREEQEDSRDNTNNQESGDHIAHETIEPGSGSTSRRPRGRPAG 118
Query: 107 SKNKPKPPIIITRESPNALRSHVLEISSGSDITETISTFARRRQRGVCILSGNGVVTNVT 166
SKNKPKPP++IT+ESPN+LRSHVLEISSGSDI ++I+ F+ RR GV ILSG+G+V NVT
Sbjct: 119 SKNKPKPPVVITKESPNSLRSHVLEISSGSDIVDSIANFSHRRHHGVSILSGSGIVDNVT 178
Query: 167 LRQPTAPDAVVTLQGRFEILSLSGAFLPAPSPPIVTGLTIYLAGGQGQVVGGSVVGELVA 226
LRQP AP V+TL GRFEILSLSG+FLPAPSPP T LT+YLAG QGQVVGG+V+GELVA
Sbjct: 179 LRQPAAPGGVITLHGRFEILSLSGSFLPAPSPPGATRLTVYLAGAQGQVVGGTVMGELVA 238
Query: 227 SGPVMVIAATFTNATYERLPIEDDPNSVGDGTQLPQS-------SGLNLENSTGVSASHS 279
+GPVMVIAATF+NATYERLP+E+ +G QL Q +G S + S
Sbjct: 239 AGPVMVIAATFSNATYERLPLEEQEQ---EGMQLQQQVDSSGTNNGNAAAGGGNNSGTQS 295
Query: 280 HGGLPDTSSLPLYNLPPNLQSNGQVPHDPYW 310
GL + S+P++NLPPNL NGQ+PHD +W
Sbjct: 296 SQGLGEHGSIPVFNLPPNLLPNGQMPHDVFW 326