BP914100 |
Clone id |
YMU001_000039_H03 |
Library |
YMU01 |
Length |
542 |
Definition |
Adiantum capillus-veneris mRNA. clone: YMU001_000039_H03. |
Accession |
BP914100 |
Tissue type |
prothallium |
Developmental stage |
- |
Contig ID |
- |
Sequence |
AATTTCCCCAAAGGCCTTCAGGTTCTTGTCGTGGACAGCGACACACAGTTTCTGCAAGAT ATCACGTGCAAGCTGGAAAGCTTTCATTTTAATGTGACAAGTTTCTCTTCTGGAGAGGAT GCATGTGCAGCATTTGTAAGTTGTACACGGACATTTCATGTAGCATTAGTGGGGGCTGCA GAGAATGACGGTTTGGACAGCTGCAAAATAATGTCATTTTCGAAACATGTACCTACCATC ATGATGTCAGCAAGGGAAAACATGGCATTGATGGTGAAGTTGATTGCGCTTGGAGCTGTG GAGTTTCTGGTGAAGCCCTTATCAGAGGACAAGCTAAGGAACATATGGCAGCATGTCATC CGAAAGGCTCCAGACTCATCAAGGGAGACCTTGCGGCCTGGATATCTAGAGCCAGGAAAA CCAACAACCTCAGCATCAGCCGTTATAGATGAGGATCATCAAGCACGCTTGAAACATGAC AGCGGGAAACCTCGACCTAAATATGTGGACTTAGAGCATCATAGTGGTGCAGAAGTATGC TC |
■■Homology search results ■■ |
- |
Swiss-Prot (release 56.9) |
Link to BlastX Result : Swiss-Prot |
sp_hit_id |
Q6LA43 |
Definition |
sp|Q6LA43|APRR2_ARATH Two-component response regulator-like APRR2 OS=Arabidopsis thaliana |
Align length |
130 |
Score (bit) |
96.3 |
E-value |
9.0e-20 |
Report |
BLASTX 2.2.19 [Nov-02-2008]
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.
Query= BP914100|Adiantum capillus-veneris mRNA, clone: YMU001_000039_H03. (542 letters)
Database: uniprot_sprot.fasta 412,525 sequences; 148,809,765 total letters
Searching..................................................done
Score E Sequences producing significant alignments: (bits) Value
sp|Q6LA43|APRR2_ARATH Two-component response regulator-like APRR... 96 9e-20 sp|Q940D0|ARR1_ARATH Two-component response regulator ARR1 OS=Ar... 75 2e-13 sp|Q9ZWJ9|ARR2_ARATH Two-component response regulator ARR2 OS=Ar... 72 1e-12 sp|P62598|ARR12_ARATH Two-component response regulator ARR12 OS=... 70 5e-12 sp|O49397|ARR10_ARATH Two-component response regulator ARR10 OS=... 70 5e-12 sp|Q0D3B6|PRR37_ORYSJ Two-component response regulator-like PRR3... 69 1e-11 sp|A2YQ93|PRR37_ORYSI Two-component response regulator-like PRR3... 69 1e-11 sp|Q9LVG4|APRR3_ARATH Two-component response regulator-like APRR... 68 3e-11 sp|Q93WK5|APRR7_ARATH Two-component response regulator-like APRR... 67 7e-11 sp|Q9M9B9|ARR19_ARATH Putative two-component response regulator ... 66 1e-10 sp|Q8L9Y3|ARR14_ARATH Two-component response regulator ARR14 OS=... 64 4e-10 sp|Q10N34|PRR73_ORYSJ Two-component response regulator-like PRR7... 63 8e-10 sp|A2XFB7|PRR73_ORYSI Two-component response regulator-like PRR7... 63 8e-10 sp|Q9FXD6|ARR11_ARATH Two-component response regulator ARR11 OS=... 62 2e-09 sp|Q8L500|APRR9_ARATH Two-component response regulator-like APRR... 61 3e-09 sp|Q9FJ16|APRR4_ARATH Putative two-component response regulator-... 60 9e-09 sp|Q9LZJ8|ARR20_ARATH Putative two-component response regulator ... 59 1e-08 sp|Q9FGT7|ARR18_ARATH Two-component response regulator ARR18 OS=... 59 2e-08 sp|Q689G9|PRR1_ORYSJ Two-component response regulator-like PRR1 ... 58 3e-08 sp|Q689G6|PRR95_ORYSJ Two-component response regulator-like PRR9... 58 3e-08 sp|Q6LA42|APRR5_ARATH Two-component response regulator-like APRR... 57 4e-08 sp|P25852|ZRAR_SALTY Transcriptional regulatory protein zraR OS=... 56 1e-07 sp|Q8Z333|ZRAR_SALTI Transcriptional regulatory protein zraR OS=... 56 1e-07 sp|Q9LKL2|APRR1_ARATH Two-component response regulator-like APRR... 54 4e-07 sp|Q7A1L2|GRAR_STAAW Response regulator protein graR OS=Staphylo... 50 5e-06 sp|A8Z181|GRAR_STAAT Response regulator protein graR OS=Staphylo... 50 5e-06 sp|Q6GBH1|GRAR_STAAS Response regulator protein graR OS=Staphylo... 50 5e-06 sp|Q6GJ11|GRAR_STAAR Response regulator protein graR OS=Staphylo... 50 5e-06 sp|Q99VW2|GRAR_STAAN Response regulator protein graR OS=Staphylo... 50 5e-06 sp|Q932F1|GRAR_STAAM Response regulator protein graR OS=Staphylo... 50 5e-06
>sp|Q6LA43|APRR2_ARATH Two-component response regulator-like APRR2 OS=Arabidopsis thaliana GN=APRR2 PE=2 SV=2 Length = 535
Score = 96.3 bits (238), Expect = 9e-20 Identities = 56/130 (43%), Positives = 79/130 (60%), Gaps = 7/130 (5%) Frame = +1
Query: 1 NFPKGLQVLVV------DSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHV 162 NFPKGL+VL++ D D + +LES + VT+F+ +A +A V +FH+ Sbjct: 13 NFPKGLKVLLLLNGCDSDGDGSSAAETRSELESMDYIVTTFTDETEALSAVVKNPESFHI 72
Query: 163 ALVGAAENDGLDSCKIMSFSKHV-PTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLR 339 A+V + +S K + +K V PTIM+S + +K IALGAVEFL KPLS +KL+ Sbjct: 73 AIVEVNMSAESESFKFLEAAKDVLPTIMISTDHCITTTMKCIALGAVEFLQKPLSPEKLK 132
Query: 340 NIWQHVIRKA 369 NIWQHV+ KA Sbjct: 133 NIWQHVVHKA 142
>sp|Q940D0|ARR1_ARATH Two-component response regulator ARR1 OS=Arabidopsis thaliana GN=ARR1 PE=1 SV=2 Length = 690
Score = 75.1 bits (183), Expect = 2e-13 Identities = 42/123 (34%), Positives = 68/123 (55%), Gaps = 2/123 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP GL+VLVVD D L + L + + VT + E A + F + + V Sbjct: 33 FPSGLRVLVVDDDPTCLMILERMLRTCLYEVTKCNRAEMALSLLRKNKHGFDIVISDVHM 92
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG + + +P IMMSA ++ ++++K + GAV++L+KP+ + L+NIWQHV Sbjct: 93 PDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRMEALKNIWQHV 152
Query: 358 IRK 366 +RK Sbjct: 153 VRK 155
>sp|Q9ZWJ9|ARR2_ARATH Two-component response regulator ARR2 OS=Arabidopsis thaliana GN=ARR2 PE=1 SV=1 Length = 664
Score = 72.4 bits (176), Expect = 1e-12 Identities = 41/123 (33%), Positives = 67/123 (54%), Gaps = 2/123 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP L+VLVVD D L + L + + VT + E A + F + + V Sbjct: 24 FPANLRVLVVDDDPTCLMILERMLMTCLYRVTKCNRAESALSLLRKNKNGFDIVISDVHM 83
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG + + +P IMMSA ++ ++++K + GAV++L+KP+ + L+NIWQHV Sbjct: 84 PDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRIEALKNIWQHV 143
Query: 358 IRK 366 +RK Sbjct: 144 VRK 146
>sp|P62598|ARR12_ARATH Two-component response regulator ARR12 OS=Arabidopsis thaliana GN=ARR12 PE=2 SV=1 Length = 596
Score = 70.5 bits (171), Expect = 5e-12 Identities = 38/129 (29%), Positives = 68/129 (52%), Gaps = 2/129 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP G++VL VD D L+ + L ++VT+ + + A F + + V Sbjct: 13 FPVGMRVLAVDDDQTCLKILESLLRHCQYHVTTTNQAQKALELLRENKNKFDLVISDVDM 72
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG +++ +P IM+SA + ++K + GA ++L+KP+ ++L+NIWQHV Sbjct: 73 PDMDGFKLLELVGLEMDLPVIMLSAHSDPKYVMKGVTHGACDYLLKPVRIEELKNIWQHV 132
Query: 358 IRKAPDSSR 384 +R D +R Sbjct: 133 VRSRFDKNR 141
>sp|O49397|ARR10_ARATH Two-component response regulator ARR10 OS=Arabidopsis thaliana GN=ARR10 PE=1 SV=1 Length = 552
Score = 70.5 bits (171), Expect = 5e-12 Identities = 37/124 (29%), Positives = 68/124 (54%), Gaps = 2/124 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP G++VL VD D L+ + L+ ++VT+ + + A F + + V Sbjct: 13 FPVGMRVLAVDDDQTCLRILQTLLQRCQYHVTTTNQAQTALELLRENKNKFDLVISDVDM 72
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG +++ +P IM+SA + ++K + GA ++L+KP+ ++L+NIWQHV Sbjct: 73 PDMDGFKLLELVGLEMDLPVIMLSAHSDPKYVMKGVKHGACDYLLKPVRIEELKNIWQHV 132
Query: 358 IRKA 369 +RK+ Sbjct: 133 VRKS 136
>sp|Q0D3B6|PRR37_ORYSJ Two-component response regulator-like PRR37 OS=Oryza sativa subsp. japonica GN=PRR37 PE=2 SV=1 Length = 742
Score = 68.9 bits (167), Expect = 1e-11 Identities = 40/130 (30%), Positives = 68/130 (52%), Gaps = 6/130 (4%) Frame = +1
Query: 10 KGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAAEND 189 K ++VL+VDSD Q ++ L + V +G+ A + + L Sbjct: 60 KTIKVLLVDSDDSTRQVVSALLRHCMYEVIPAENGQQAWTYLEDMQNSIDLVLTEVVM-P 118
Query: 190 GLDSCKIMS------FSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQ 351 G+ ++S K++P IMMS+ + M + K ++ GAV+FLVKP+ +++L+N+WQ Sbjct: 119 GVSGISLLSRIMNHNICKNIPVIMMSSNDAMGTVFKCLSKGAVDFLVKPIRKNELKNLWQ 178
Query: 352 HVIRKAPDSS 381 HV R+ SS Sbjct: 179 HVWRRCHSSS 188
>sp|A2YQ93|PRR37_ORYSI Two-component response regulator-like PRR37 OS=Oryza sativa subsp. indica GN=PRR37 PE=2 SV=2 Length = 742
Score = 68.9 bits (167), Expect = 1e-11 Identities = 40/130 (30%), Positives = 68/130 (52%), Gaps = 6/130 (4%) Frame = +1
Query: 10 KGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAAEND 189 K ++VL+VDSD Q ++ L + V +G+ A + + L Sbjct: 60 KTIKVLLVDSDDSTRQVVSALLRHCMYEVIPAENGQQAWTYLEDMQNSIDLVLTEVVM-P 118
Query: 190 GLDSCKIMS------FSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQ 351 G+ ++S K++P IMMS+ + M + K ++ GAV+FLVKP+ +++L+N+WQ Sbjct: 119 GVSGISLLSRIMNHNICKNIPVIMMSSNDAMGTVFKCLSKGAVDFLVKPIRKNELKNLWQ 178
Query: 352 HVIRKAPDSS 381 HV R+ SS Sbjct: 179 HVWRRCHSSS 188
>sp|Q9LVG4|APRR3_ARATH Two-component response regulator-like APRR3 OS=Arabidopsis thaliana GN=APRR3 PE=1 SV=1 Length = 495
Score = 68.2 bits (165), Expect = 3e-11 Identities = 50/167 (29%), Positives = 86/167 (51%), Gaps = 8/167 (4%) Frame = +1
Query: 10 KGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL----VGA 177 + L+VL+V++D +T L++ + VT+ +A + L + Sbjct: 62 RSLKVLLVENDDSTRHIVTALLKNCSYEVTAVPDVLEAWRILEDEKSCIDLVLTEVDMPV 121
Query: 178 AENDGLDSCKIMSFS--KHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQ 351 GL S KIMS K++P IMMS+ ++M L+ K ++ GAV+FLVKP+ +++L+N+WQ Sbjct: 122 HSGTGLLS-KIMSHKTLKNIPVIMMSSHDSMVLVFKCLSNGAVDFLVKPIRKNELKNLWQ 180
Query: 352 HVIRKAPDSSRETLRPGYLEPG--KPTTSASAVIDEDHQARLKHDSG 486 HV R+ SS G + KP ++ + D +++SG Sbjct: 181 HVWRRCHSSSGSGSESGIHDKKSVKPESTQGSENDASISDEHRNESG 227
>sp|Q93WK5|APRR7_ARATH Two-component response regulator-like APRR7 OS=Arabidopsis thaliana GN=APRR7 PE=2 SV=1 Length = 727
Score = 66.6 bits (161), Expect = 7e-11 Identities = 47/164 (28%), Positives = 83/164 (50%), Gaps = 7/164 (4%) Frame = +1
Query: 16 LQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAA----E 183 ++VL+V++D +T L + + V S+G A + L Sbjct: 78 IRVLLVENDDCTRYIVTALLRNCSYEVVEASNGIQAWKVLEDLNNHIDIVLTEVIMPYLS 137
Query: 184 NDGLDSCKIMSFS--KHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 GL CKI++ +++P IMMS+ ++M L+ K ++ GAV+FLVKP+ +++L+ +WQHV Sbjct: 138 GIGL-LCKILNHKSRRNIPVIMMSSHDSMGLVFKCLSKGAVDFLVKPIRKNELKILWQHV 196
Query: 358 IRKAPDSSRETLRPGYLEPGKPTTSAS-AVIDEDHQARLKHDSG 486 R+ SS G + K S S D+D + ++++G Sbjct: 197 WRRCQSSSGSGSESGTHQTQKSVKSKSIKKSDQDSGSSDENENG 240
>sp|Q9M9B9|ARR19_ARATH Putative two-component response regulator ARR19 OS=Arabidopsis thaliana GN=ARR19 PE=2 SV=2 Length = 407
Score = 66.2 bits (160), Expect = 1e-10 Identities = 44/161 (27%), Positives = 78/161 (48%), Gaps = 9/161 (5%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP VLVVD++ L ++ ++ + + V+ + E A A SC ++ + Sbjct: 30 FPGNTNVLVVDTNFTTLLNMKQIMKQYAYQVSIETDAEKALAFLTSCKHEINIVIWDFHM 89
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 DGL + K ++ +P ++MS ++K GA +++VKP+ E+ + NIWQH+ Sbjct: 90 PGIDGLQALKSITSKLDLPVVIMSDDNQTESVMKATFYGACDYVVKPVKEEVMANIWQHI 149
Query: 358 IRK----APDSSRETLRPGYLEPGKPTTS---ASAVIDEDH 459 +RK PD + R + E +P S + +D DH Sbjct: 150 VRKRLIFKPDVAPPKPRMTWSEVFQPVQSHLVPTDGLDRDH 190
|
TrEMBL (release 39.9) |
Link to BlastX Result : TrEMBL |
tr_hit_id |
A7PCE1 |
Definition |
tr|A7PCE1|A7PCE1_VITVI Chromosome chr2 scaffold_11, whole genome shotgun sequence OS=Vitis vinifera |
Align length |
154 |
Score (bit) |
115.0 |
E-value |
1.0e-24 |
Report |
BLASTX 2.2.19 [Nov-02-2008]
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.
Query= BP914100|Adiantum capillus-veneris mRNA, clone: YMU001_000039_H03. (542 letters)
Database: uniprot_trembl.fasta 7,341,751 sequences; 2,391,615,440 total letters
Searching..................................................done
Score E Sequences producing significant alignments: (bits) Value
tr|A7PCE1|A7PCE1_VITVI Chromosome chr2 scaffold_11, whole genome... 115 1e-24 tr|A5B243|A5B243_VITVI Putative uncharacterized protein OS=Vitis... 99 2e-19 tr|A4RR47|A4RR47_OSTLU Predicted protein (Fragment) OS=Ostreococ... 84 4e-15 tr|A7NZB2|A7NZB2_VITVI Chromosome chr6 scaffold_3, whole genome ... 77 4e-13 tr|A7Q8K8|A7Q8K8_VITVI Chromosome chr5 scaffold_64, whole genome... 77 6e-13 tr|A7P3W0|A7P3W0_VITVI Chromosome chr1 scaffold_5, whole genome ... 76 1e-12 tr|Q8H7S7|Q8H7S7_ORYSJ Os03g0224200 protein OS=Oryza sativa subs... 75 2e-12 tr|Q67YH9|Q67YH9_ARATH Putative ARR1 protein OS=Arabidopsis thal... 75 2e-12 tr|A2XE31|A2XE31_ORYSI Putative uncharacterized protein OS=Oryza... 75 2e-12 tr|A7Q402|A7Q402_VITVI Chromosome chr13 scaffold_48, whole genom... 74 5e-12 tr|Q9AV93|Q9AV93_MAIZE Two-component response regulator ARR1 OS=... 73 8e-12 tr|Q2PEF7|Q2PEF7_9ARAE Pseudo-response regulator 37 homologue OS... 73 8e-12 tr|Q682I9|Q682I9_ARATH Putative uncharacterized protein At4g1611... 72 1e-11 tr|Q680A8|Q680A8_ARATH Putative uncharacterized protein At4g1611... 72 1e-11 tr|A5BHX8|A5BHX8_VITVI Putative uncharacterized protein OS=Vitis... 72 1e-11 tr|A9RHS9|A9RHS9_PHYPA Predicted protein OS=Physcomitrella paten... 72 2e-11 tr|A8HSN4|A8HSN4_CHLRE Predicted protein OS=Chlamydomonas reinha... 72 2e-11 tr|A7Q0I3|A7Q0I3_VITVI Chromosome chr7 scaffold_42, whole genome... 72 2e-11 tr|Q71BZ1|Q71BZ1_CATRO Type-B response regulator OS=Catharanthus... 71 3e-11 tr|A7P5Y3|A7P5Y3_VITVI Chromosome chr4 scaffold_6, whole genome ... 71 3e-11 tr|A5BGD4|A5BGD4_VITVI Putative uncharacterized protein OS=Vitis... 71 3e-11 tr|Q948L2|Q948L2_MAIZE Response regulator 10 OS=Zea mays GN=ZmRR... 71 4e-11 tr|Q2PEF4|Q2PEF4_LEMGI Pseudo-response regulator 37 homologue OS... 70 5e-11 tr|Q15FC9|Q15FC9_STRAF SRR391 OS=Striga asiatica PE=2 SV=1 70 5e-11 tr|Q0WRZ4|Q0WRZ4_ARATH Predicted protein OS=Arabidopsis thaliana... 70 5e-11 tr|A5AQH6|A5AQH6_VITVI Putative uncharacterized protein OS=Vitis... 70 9e-11 tr|Q7Y0W5|Q7Y0W5_ORYSJ B-type response regulator OS=Oryza sativa... 69 1e-10 tr|Q7Y0W4|Q7Y0W4_ORYSJ B-type response regulator OS=Oryza sativa... 69 1e-10 tr|Q7Y0W3|Q7Y0W3_ORYSI B-type response regulator OS=Oryza sativa... 69 1e-10 tr|A7Q6G8|A7Q6G8_VITVI Chromosome chr11 scaffold_56, whole genom... 69 1e-10
>tr|A7PCE1|A7PCE1_VITVI Chromosome chr2 scaffold_11, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00015824001 PE=4 SV=1 Length = 557
Score = 115 bits (289), Expect = 1e-24 Identities = 65/154 (42%), Positives = 99/154 (64%) Frame = +1
Query: 1 NFPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAA 180 +FPKGL+VL++D DT +I KLE + V++F + +A +A S +FHVA+V + Sbjct: 13 DFPKGLRVLLLDDDTTSAAEIRSKLEEMDYIVSTFCNENEALSAISSKPESFHVAIVEVS 72
Query: 181 ENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHVI 360 + S K + +K +PTIM+S+ ++ M+K IALGAVEFL KPLSEDKLRNIWQHV+ Sbjct: 73 TGNN-GSFKFLETAKDLPTIMISSIHCLSTMMKCIALGAVEFLRKPLSEDKLRNIWQHVV 131
Query: 361 RKAPDSSRETLRPGYLEPGKPTTSASAVIDEDHQ 462 KA ++ L P L+P K + ++ + +++ Sbjct: 132 HKAFNAGGSVL-PESLKPVKESVASMLQLQMENE 164
>tr|A5B243|A5B243_VITVI Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_001044 PE=4 SV=1 Length = 563
Score = 98.6 bits (244), Expect = 2e-19 Identities = 59/160 (36%), Positives = 93/160 (58%), Gaps = 6/160 (3%) Frame = +1
Query: 1 NFPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAA 180 +FPKGL+VL++D DT +I KLE + V++F + +A +A S +FHVA+V + Sbjct: 13 DFPKGLRVLLLDDDTTSAAEIRSKLEEMDYIVSTFCNENEALSAISSKPESFHVAIVEVS 72
Query: 181 ENDGLDSCKIMSFSKHVPTIMMSARENMALMV------KLIALGAVEFLVKPLSEDKLRN 342 + S K + +K +PTI + + + ++ LGAVEFL KPLSEDKLRN Sbjct: 73 TGNN-GSFKFLETAKDLPTIRAGMHFLLTISLMDVFDNQMFQLGAVEFLRKPLSEDKLRN 131
Query: 343 IWQHVIRKAPDSSRETLRPGYLEPGKPTTSASAVIDEDHQ 462 IWQHV+ KA ++ L P L+P K + ++ + +++ Sbjct: 132 IWQHVVHKAFNAGGSVL-PESLKPVKESVASMLQLQMENE 170
>tr|A4RR47|A4RR47_OSTLU Predicted protein (Fragment) OS=Ostreococcus lucimarinus (strain CCE9901) GN=OSTLU_5500 PE=4 SV=1 Length = 270
Score = 84.3 bits (207), Expect = 4e-15 Identities = 54/172 (31%), Positives = 91/172 (52%), Gaps = 6/172 (3%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP GL VLVVD D L+ + L++ + VT+ S+ + A + F + L V Sbjct: 1 FPAGLGVLVVDDDLLCLKVVEKMLKACKYKVTACSTAKTALEILRTRKEEFDIVLSDVHM 60
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG +I+ F +P +MMSA + +++++ I GAV++L+KP+ ++LRNIWQHV Sbjct: 61 PDMDGFKLLEIIQFELALPVLMMSANSDSSVVLRGIIHGAVDYLLKPVRIEELRNIWQHV 120
Query: 358 IRK----APDSSRETLRPGYLEPGKPTTSASAVIDEDHQARLKHDSGKPRPK 501 +R+ A S E + T+ +++ +E + + SGK R K Sbjct: 121 VRRDYSSAKSSGSEDVEASSPSKRAKTSGSNSKSEEVDRTASEMSSGKARKK 172
>tr|A7NZB2|A7NZB2_VITVI Chromosome chr6 scaffold_3, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00024444001 PE=4 SV=1 Length = 719
Score = 77.4 bits (189), Expect = 4e-13 Identities = 45/130 (34%), Positives = 74/130 (56%), Gaps = 6/130 (4%) Frame = +1
Query: 10 KGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAA--- 180 + L+VL+V++D +T L + + VT+ ++G A T + L Sbjct: 93 RSLKVLLVENDDSTRHVVTALLRNCSYEVTAVANGLQAWKILEDLTNHIDIVLTEVVMPF 152
Query: 181 -ENDGLDSCKIMSFS--KHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQ 351 GL CKIMS K++P IMMS+ ++M ++ K ++ GAV+FLVKP+ +++L+N+WQ Sbjct: 153 ISGIGL-LCKIMSHKTFKNIPVIMMSSHDSMGIVFKCLSKGAVDFLVKPIRKNELKNLWQ 211
Query: 352 HVIRKAPDSS 381 HV R+ SS Sbjct: 212 HVWRRCHSSS 221
>tr|A7Q8K8|A7Q8K8_VITVI Chromosome chr5 scaffold_64, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00033093001 PE=4 SV=1 Length = 632
Score = 77.0 bits (188), Expect = 6e-13 Identities = 47/156 (30%), Positives = 77/156 (49%), Gaps = 2/156 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP GL+VLVVD D L + L + + VT + E A + F + + V Sbjct: 29 FPAGLRVLVVDDDPTCLMILEKMLRTCLYEVTKCNRAETALSLLRGNKSGFDIVISDVHM 88
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG + + +P IMMSA + +++K + GA ++L+KP+ + L+NIWQHV Sbjct: 89 PDMDGFKLLEHIGLEMDLPVIMMSADDGKHVVMKGVTHGACDYLIKPVRIEALKNIWQHV 148
Query: 358 IRKAPDSSRETLRPGYLEPGKPTTSASAVIDEDHQA 465 +RK + ++ + G +E G S +D A Sbjct: 149 VRKRKNEWKDLEQSGSVEDGDRQQKPSEDVDYSSSA 184
>tr|A7P3W0|A7P3W0_VITVI Chromosome chr1 scaffold_5, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00030597001 PE=4 SV=1 Length = 536
Score = 75.9 bits (185), Expect = 1e-12 Identities = 47/138 (34%), Positives = 73/138 (52%), Gaps = 2/138 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP GL+VLVVD D L+ + L ++VT+ S A F + L V Sbjct: 29 FPAGLRVLVVDDDVTCLKILEQMLRRCLYHVTTCSQATIALNILREKKGCFDIVLSDVHM 88
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG + + +P IMMSA + +++ I GA ++L+KP+ E++L+NIWQHV Sbjct: 89 PDMDGYKLLEHVGLEMDLPVIMMSADGRTSAVMRGIRHGACDYLIKPIREEELKNIWQHV 148
Query: 358 IRKAPDSSRETLRPGYLE 411 +RK + ++E G LE Sbjct: 149 VRKKWNENKEHEHSGSLE 166
>tr|Q8H7S7|Q8H7S7_ORYSJ Os03g0224200 protein OS=Oryza sativa subsp. japonica GN=OSJNBa0081P02.4 PE=2 SV=1 Length = 691
Score = 75.1 bits (183), Expect = 2e-12 Identities = 46/138 (33%), Positives = 72/138 (52%), Gaps = 2/138 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP G++VLVVD D L + L ++ T+ S A R F V + V Sbjct: 12 FPVGMKVLVVDDDPTCLAVLKRMLLECRYDATTCSQATRALTMLRENRRGFDVIISDVHM 71
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG +++ +P IMMSA +++K I GA ++L+KP+ ++L+NIWQHV Sbjct: 72 PDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEELKNIWQHV 131
Query: 358 IRKAPDSSRETLRPGYLE 411 IRK + ++E G L+ Sbjct: 132 IRKKFNENKEHEHSGSLD 149
>tr|Q67YH9|Q67YH9_ARATH Putative ARR1 protein OS=Arabidopsis thaliana GN=At3g16857 PE=2 SV=1 Length = 690
Score = 75.1 bits (183), Expect = 2e-12 Identities = 42/123 (34%), Positives = 68/123 (55%), Gaps = 2/123 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP GL+VLVVD D L + L + + VT + E A + F + + V Sbjct: 33 FPSGLRVLVVDDDPTCLMILERMLRTCLYEVTKCNRAEMALSLLRKNKHGFDIVISDVHM 92
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG + + +P IMMSA ++ ++++K + GAV++L+KP+ + L+NIWQHV Sbjct: 93 PDMDGFKLLEHVGLEMDLPVIMMSADDSKSVVLKGVTHGAVDYLIKPVRMEALKNIWQHV 152
Query: 358 IRK 366 +RK Sbjct: 153 VRK 155
>tr|A2XE31|A2XE31_ORYSI Putative uncharacterized protein OS=Oryza sativa subsp. indica GN=OsI_10579 PE=4 SV=1 Length = 691
Score = 75.1 bits (183), Expect = 2e-12 Identities = 46/138 (33%), Positives = 72/138 (52%), Gaps = 2/138 (1%) Frame = +1
Query: 4 FPKGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVAL--VGA 177 FP G++VLVVD D L + L ++ T+ S A R F V + V Sbjct: 12 FPVGMKVLVVDDDPTCLAVLKRMLLECRYDATTCSQATRALTMLRENRRGFDVIISDVHM 71
Query: 178 AENDGLDSCKIMSFSKHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQHV 357 + DG +++ +P IMMSA +++K I GA ++L+KP+ ++L+NIWQHV Sbjct: 72 PDMDGFRLLELVGLEMDLPVIMMSADSRTDIVMKGIKHGACDYLIKPVRMEELKNIWQHV 131
Query: 358 IRKAPDSSRETLRPGYLE 411 IRK + ++E G L+ Sbjct: 132 IRKKFNENKEHEHSGSLD 149
>tr|A7Q402|A7Q402_VITVI Chromosome chr13 scaffold_48, whole genome shotgun sequence OS=Vitis vinifera GN=GSVIVT00029486001 PE=4 SV=1 Length = 711
Score = 73.9 bits (180), Expect = 5e-12 Identities = 42/125 (33%), Positives = 74/125 (59%), Gaps = 6/125 (4%) Frame = +1
Query: 10 KGLQVLVVDSDTQFLQDITCKLESFHFNVTSFSSGEDACAAFVSCTRTFHVALVGAA--- 180 + L+VL+V++D Q ++ L + + VT+ ++G A + T + L A Sbjct: 87 RSLKVLLVENDNSTRQVVSALLRNCSYEVTAVANGVQAWSILDDLTNHVDLVLAEVALPS 146
Query: 181 -ENDGLDSCKIMSFS--KHVPTIMMSARENMALMVKLIALGAVEFLVKPLSEDKLRNIWQ 351 GL CKIM+ K++P IMMS+ +++ ++ K ++ GAV+F VKP+ +++L+N+WQ Sbjct: 147 LSGIGL-LCKIMNHKACKNIPVIMMSSHDSVGIVFKCLSKGAVDFFVKPIRKNELKNLWQ 205
Query: 352 HVIRK 366 HV RK Sbjct: 206 HVWRK 210
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