BLASTX nr result
ID: Scutellaria23_contig00019601
seq
BLASTX 2.2.25 [Feb-01-2011]
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.
Query= Scutellaria23_contig00019601
(716 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
ref|XP_002281425.1| PREDICTED: putative nuclease HARBI1 [Vitis v... 303 3e-80
ref|XP_003543499.1| PREDICTED: putative nuclease HARBI1-like [Gl... 299 4e-79
ref|XP_003547435.1| PREDICTED: putative nuclease HARBI1-like [Gl... 293 2e-77
ref|XP_003597334.1| hypothetical protein MTR_2g096480 [Medicago ... 290 2e-76
ref|XP_003597332.1| hypothetical protein MTR_2g096450 [Medicago ... 284 1e-74
>ref|XP_002281425.1| PREDICTED: putative nuclease HARBI1 [Vitis vinifera]
gi|297746131|emb|CBI16187.3| unnamed protein product
[Vitis vinifera]
Length = 384
Score = 303 bits (775), Expect = 3e-80
Identities = 149/220 (67%), Positives = 178/220 (80%), Gaps = 1/220 (0%)
Frame = +1
Query: 58 MGPVKANKKKRKMEKSEENSLVSGSSEEGSTDWWDALSKTIAGSPSASQLTDKFKSTFKV 237
MGPV+ KK+RK+EK EE SSEEGS DWWD SK IAG S+S+ DKF+S FK+
Sbjct: 1 MGPVRGYKKRRKIEKREE------SSEEGSVDWWDEFSKRIAGLLSSSKGLDKFESVFKI 54
Query: 238 SRKTFDYICSLVKDHMMAKT-HFAFTNGKPMSLNDQVALALTRLGSGNSLITIGDSFGAH 414
SRKTF+YIC+LVK+ MMAK +F FTNG+PM LNDQVA+AL RL SG+SL+TIGD+FG +
Sbjct: 55 SRKTFNYICALVKEDMMAKPGNFIFTNGRPMCLNDQVAVALRRLSSGDSLLTIGDAFGLN 114
Query: 415 HSTVSQVTWRFVEAIEEKGLHHIQWPSTQHEITLIKRKFETIRGLPNCCGAIDTTHITML 594
HSTVSQVTWRFVE +EE+ LHH+QWPST+ EIT I KFE IRGLPNCCGAIDTTHI M
Sbjct: 115 HSTVSQVTWRFVEIMEERALHHLQWPSTEPEITEITSKFEKIRGLPNCCGAIDTTHIMMC 174
Query: 595 LTSSDQEANTWLDRKDNHSMILQAIVDPDMKSRNIVTGWP 714
L S+D + WLD +++HSMILQAIVDP+M+ R+IVTGWP
Sbjct: 175 LPSADSANSVWLDSENHHSMILQAIVDPEMRFRDIVTGWP 214
>ref|XP_003543499.1| PREDICTED: putative nuclease HARBI1-like [Glycine max]
Length = 393
Score = 299 bits (765), Expect = 4e-79
Identities = 149/223 (66%), Positives = 175/223 (78%), Gaps = 4/223 (1%)
Frame = +1
Query: 58 MGPVKANKKKRKMEKS-EENSLVSGSSE-EGSTDWWDALSKTIAG-SPSASQLTDKFKST 228
MGPV+ KKKRK EK ++N SGS E EG DWWD LSK + G S S+ D F+S
Sbjct: 1 MGPVRGFKKKRKPEKKHDKNGSGSGSPEGEGPVDWWDDLSKRMNGLQQSPSKCLDNFESV 60
Query: 229 FKVSRKTFDYICSLVKDHMMAKT-HFAFTNGKPMSLNDQVALALTRLGSGNSLITIGDSF 405
FK+SRKTF+YICSLVKD MM K HF FTNGKP+SL +QVA+AL RLGSG SL+TIGDSF
Sbjct: 61 FKISRKTFEYICSLVKDDMMTKAAHFVFTNGKPISLREQVAVALRRLGSGESLVTIGDSF 120
Query: 406 GAHHSTVSQVTWRFVEAIEEKGLHHIQWPSTQHEITLIKRKFETIRGLPNCCGAIDTTHI 585
G +HSTVSQVTWRFVE++EE+GLHH++WPST+ E+ IK KFE IRGLPNCCG ID T+I
Sbjct: 121 GLNHSTVSQVTWRFVESMEERGLHHLRWPSTEVEMNAIKSKFEKIRGLPNCCGVIDATNI 180
Query: 586 TMLLTSSDQEANTWLDRKDNHSMILQAIVDPDMKSRNIVTGWP 714
TM L +S+ N WLD K NHSM+LQAIVDPDM+ R+IVTGWP
Sbjct: 181 TMCLPASEPYCNVWLDHKKNHSMVLQAIVDPDMRFRDIVTGWP 223
>ref|XP_003547435.1| PREDICTED: putative nuclease HARBI1-like [Glycine max]
Length = 395
Score = 293 bits (751), Expect = 2e-77
Identities = 146/225 (64%), Positives = 173/225 (76%), Gaps = 6/225 (2%)
Frame = +1
Query: 58 MGPVKANKKKRKMEKSEE---NSLVSGSSE-EGSTDWWDALSKTIAG-SPSASQLTDKFK 222
MGPV+ KKKRK EK + ++ SGS E +G DWWD LSK + G S S+ D F+
Sbjct: 1 MGPVRGFKKKRKPEKKHDKNGSAAASGSPEGDGPVDWWDDLSKRMNGLQQSPSKCLDNFE 60
Query: 223 STFKVSRKTFDYICSLVKDHMMAKT-HFAFTNGKPMSLNDQVALALTRLGSGNSLITIGD 399
S FK+SRKTF+YICSLVKD MM K HF FTN KP+SL +QVA+AL RLGSG SL+TIGD
Sbjct: 61 SVFKISRKTFEYICSLVKDDMMMKAAHFVFTNRKPISLCEQVAVALRRLGSGESLVTIGD 120
Query: 400 SFGAHHSTVSQVTWRFVEAIEEKGLHHIQWPSTQHEITLIKRKFETIRGLPNCCGAIDTT 579
SFG +HSTVSQVTWRFVE++EE+GLHH++WPST+ E+ IK KFE I GLPNCCG ID T
Sbjct: 121 SFGLNHSTVSQVTWRFVESMEERGLHHLRWPSTEVEMNAIKSKFEKIHGLPNCCGVIDAT 180
Query: 580 HITMLLTSSDQEANTWLDRKDNHSMILQAIVDPDMKSRNIVTGWP 714
HITM L +S+ N WLD K NHSM+LQAIVDPDM+ R+IVTGWP
Sbjct: 181 HITMCLPASEPSCNVWLDHKKNHSMVLQAIVDPDMRFRDIVTGWP 225
>ref|XP_003597334.1| hypothetical protein MTR_2g096480 [Medicago truncatula]
gi|355486382|gb|AES67585.1| hypothetical protein
MTR_2g096480 [Medicago truncatula]
Length = 390
Score = 290 bits (743), Expect = 2e-76
Identities = 141/225 (62%), Positives = 174/225 (77%), Gaps = 6/225 (2%)
Frame = +1
Query: 58 MGPVKANKKKRKMEKSEENSLVSGSS-----EEGSTDWWDALSKTIAGSPSASQLTDKFK 222
MGPV+ KK+RK EK+ +N+ SGS+ +EG DWWD LSK I G A +
Sbjct: 1 MGPVRGTKKRRKTEKTHDNNNGSGSASGSSEKEGLVDWWDELSKKINGLQKAPPM----- 55
Query: 223 STFKVSRKTFDYICSLVKDHMMAKT-HFAFTNGKPMSLNDQVALALTRLGSGNSLITIGD 399
+SRKTF+YICSLVKD + K+ HF+F+NGKP+SL DQVA+AL RLGSG+S +TIGD
Sbjct: 56 ----ISRKTFEYICSLVKDDIAKKSSHFSFSNGKPVSLTDQVAVALRRLGSGDSFVTIGD 111
Query: 400 SFGAHHSTVSQVTWRFVEAIEEKGLHHIQWPSTQHEITLIKRKFETIRGLPNCCGAIDTT 579
SFG HSTVSQVTWRFVE++EE+GLHH+QWPSTQ E+ IK KFE I+G PNCCGA+D T
Sbjct: 112 SFGLSHSTVSQVTWRFVESMEERGLHHLQWPSTQEEMNSIKSKFEKIQGFPNCCGAVDVT 171
Query: 580 HITMLLTSSDQEANTWLDRKDNHSMILQAIVDPDMKSRNIVTGWP 714
HITMLL +++Q ++ WLD K+NHSM+LQAIVDPDMK R+IVTGWP
Sbjct: 172 HITMLLPATEQSSDVWLDHKNNHSMVLQAIVDPDMKFRDIVTGWP 216
>ref|XP_003597332.1| hypothetical protein MTR_2g096450 [Medicago truncatula]
gi|355486380|gb|AES67583.1| hypothetical protein
MTR_2g096450 [Medicago truncatula]
Length = 388
Score = 284 bits (726), Expect = 1e-74
Identities = 142/223 (63%), Positives = 170/223 (76%), Gaps = 4/223 (1%)
Frame = +1
Query: 58 MGPVKANKKKRKMEKSEENS--LVSGSSE-EGSTDWWDALSKTIAGSPSASQLTDKFKST 228
MGPV+ KK+RK EKS +N+ SGSSE EG DWWD SK I G KS
Sbjct: 1 MGPVRGIKKRRKTEKSYDNNNDSASGSSEKEGVVDWWDEFSKKINGLQ---------KSP 51
Query: 229 FKVSRKTFDYICSLVKDHMMAKT-HFAFTNGKPMSLNDQVALALTRLGSGNSLITIGDSF 405
+SRKTF+YICSLVKD M K+ H FTNGKPMSL DQVA+AL RLGSG+SL+T+GDSF
Sbjct: 52 PMISRKTFEYICSLVKDDMTTKSAHLTFTNGKPMSLFDQVAVALRRLGSGDSLVTVGDSF 111
Query: 406 GAHHSTVSQVTWRFVEAIEEKGLHHIQWPSTQHEITLIKRKFETIRGLPNCCGAIDTTHI 585
G +STVSQVTWRFVE++E++GLHH+QWPSTQ E+ IK KFE I+G PNCCGA+D THI
Sbjct: 112 GLTYSTVSQVTWRFVESMEDRGLHHLQWPSTQEEMNAIKSKFEKIQGFPNCCGAVDATHI 171
Query: 586 TMLLTSSDQEANTWLDRKDNHSMILQAIVDPDMKSRNIVTGWP 714
TM L ++D ++ WLD ++NHSM+LQAIVDPDMK R+IVTGWP
Sbjct: 172 TMCLPATDHSSDVWLDHRNNHSMVLQAIVDPDMKFRDIVTGWP 214