Miyakogusa Predicted Gene
- Lj3g3v3511370.1
BLASTP 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.
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= Lj3g3v3511370.1 tr|B9NB33|B9NB33_POPTR Predicted protein
OS=Populus trichocarpa GN=POPTRDRAFT_588111 PE=4
SV=1,86.96,0.0000000000002,C2,C2 membrane targeting protein; Protein
kinase C conserved region,C2 calcium-dependent membrane
ta,CUFF.45903.1
(395 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma12g03200.1 564 e-161
Glyma11g11010.1 525 e-149
Glyma13g33580.1 60 5e-09
Glyma10g35410.1 51 2e-06
Glyma15g13700.1 50 4e-06
Glyma09g02830.1 50 5e-06
Glyma15g39380.1 50 6e-06
>Glyma12g03200.1
Length = 650
Score = 564 bits (1454), Expect = e-161, Method: Compositional matrix adjust.
Identities = 298/395 (75%), Positives = 312/395 (78%), Gaps = 4/395 (1%)
Query: 1 MLLMLSLKFXXXXXXXXXXXRDFDIDGELWVKLRLIPTAPWVGAASWAFVSLPKIKFELS 60
MLLMLSLKF RDFDIDGELWVKLRLIPT PWVGAASWAFVSLPKIKFELS
Sbjct: 260 MLLMLSLKFGIIPIVVPVGVRDFDIDGELWVKLRLIPTEPWVGAASWAFVSLPKIKFELS 319
Query: 61 PFRLFNLMAIPVLSMFLTKLLTVDLPKLFVRPNKIVLDFQKGKAVGPVPNIIKSGEMPEG 120
PFRLFNLMAIPVLSMFLTKLLT DLPKLFVRP KIVLDFQKGKAVGPV +KSGEM EG
Sbjct: 320 PFRLFNLMAIPVLSMFLTKLLTEDLPKLFVRPKKIVLDFQKGKAVGPVAGGVKSGEMQEG 379
Query: 121 SKDCVGELSVTLVDARKLPYLFYGKTDPYVILSLGDQIIRSKKNSQTTVIGPPGMPIWNQ 180
+KD VGELSVTLVDARKL Y+FYGKTDPYVILSLG+Q+IRSKKNSQTTVIGPPGMPIWNQ
Sbjct: 380 NKDSVGELSVTLVDARKLSYIFYGKTDPYVILSLGNQVIRSKKNSQTTVIGPPGMPIWNQ 439
Query: 181 DFHMLVSNPRKQKLSIQVKDALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQXXXXXXXX 240
DFHMLVSNPRKQKL IQVKDALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQ
Sbjct: 440 DFHMLVSNPRKQKLFIQVKDALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQGGWGFLGK 499
Query: 241 XXXXEILLRLTYKAYVEDEEDDKTXXXXXXXXXXXXXXXXXXXXXXXNKKGVRDPTYEVD 300
EILLRLTYKAYVEDEEDDKT N K RD YE D
Sbjct: 500 RSSGEILLRLTYKAYVEDEEDDKT-EVDAIYTDISDDELSDSEANGTNGKDERDSVYETD 558
Query: 301 KESFMDVLAALIVSEEFQGIVASEAGFTKAVDNGSNIGSKLSNVSNSPVVNAEPIPXXXX 360
KESFMDVLAALIVSEEFQGIVASE GF+K +DNGSN+GS+ VSNS V N EPIP
Sbjct: 559 KESFMDVLAALIVSEEFQGIVASETGFSKVLDNGSNVGSR---VSNSQVPNVEPIPSSSD 615
Query: 361 XXXXXXXXALIWLAVITGIALLIAVNIGGSNLFNP 395
AL+WLAVIT I+LLIA+N+GGS+LFNP
Sbjct: 616 NSEGSGGSALLWLAVITSISLLIALNVGGSSLFNP 650
>Glyma11g11010.1
Length = 683
Score = 525 bits (1353), Expect = e-149, Method: Compositional matrix adjust.
Identities = 283/395 (71%), Positives = 302/395 (76%), Gaps = 10/395 (2%)
Query: 1 MLLMLSLKFXXXXXXXXXXXRDFDIDGELWVKLRLIPTAPWVGAASWAFVSLPKIKFELS 60
MLLMLSLKF RDFDIDGELWVKLRLIPT PWVGA SWAFVSLPKIKFELS
Sbjct: 299 MLLMLSLKFGIIPIVVPVGVRDFDIDGELWVKLRLIPTEPWVGAVSWAFVSLPKIKFELS 358
Query: 61 PFRLFNLMAIPVLSMFLTKLLTVDLPKLFVRPNKIVLDFQKGKAVGPVPNIIKSGEMPEG 120
FRLFNLMAIPVLSMFLTKLLT DLPKLFVRP KIVLDFQKGKAVGPV +KSGE EG
Sbjct: 359 LFRLFNLMAIPVLSMFLTKLLTEDLPKLFVRPKKIVLDFQKGKAVGPVAVGVKSGETQEG 418
Query: 121 SKDCVGELSVTLVDARKLPYLFYGKTDPYVILSLGDQIIRSKKNSQTTVIGPPGMPIWNQ 180
+KD VGELSVTLVDARKL Y+FYGKTDPYVILSLG+Q+IRSKKNSQTTVIGPPGMPIWNQ
Sbjct: 419 NKDSVGELSVTLVDARKLSYIFYGKTDPYVILSLGNQVIRSKKNSQTTVIGPPGMPIWNQ 478
Query: 181 DFHMLVSNPRKQKLSIQVKDALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQXXXXXXXX 240
DFHMLVSNPRKQKL IQVKD LGFADLTIGTGEVDLGSLKDTVPTDRIVVLQ
Sbjct: 479 DFHMLVSNPRKQKLFIQVKDVLGFADLTIGTGEVDLGSLKDTVPTDRIVVLQGGWGFLGK 538
Query: 241 XXXXEILLRLTYKAYVEDEEDDKTXXXXXXXXXXXXXXXXXXXXXXXNKKGVRDPTYEVD 300
EILLRLTYKAYVEDEEDDKT N+K RD YE D
Sbjct: 539 RSSGEILLRLTYKAYVEDEEDDKT-EVYAIYTDVSDDELSDSEVNGTNEKDERDSAYETD 597
Query: 301 KESFMDVLAALIVSEEFQGIVASEAGFTKAVDNGSNIGSKLSNVSNSPVVNAEPIPXXXX 360
KESFMDVLAALIVSEEFQGIVASE GF+K +D+GSN G ++ + ++ E
Sbjct: 598 KESFMDVLAALIVSEEFQGIVASETGFSKVLDSGSNAGPRVFWRYHYLMILIE------- 650
Query: 361 XXXXXXXXALIWLAVITGIALLIAVNIGGSNLFNP 395
AL+WLAVIT I+LLIA+N+GGS+LFNP
Sbjct: 651 --YSIIWSALLWLAVITSISLLIALNVGGSSLFNP 683
>Glyma13g33580.1
Length = 742
Score = 59.7 bits (143), Expect = 5e-09, Method: Compositional matrix adjust.
Identities = 51/212 (24%), Positives = 98/212 (46%), Gaps = 16/212 (7%)
Query: 25 IDGELWVKLRLIPTAPWVGAASWAFVSLPKIKFELSPF--RLFNLMAIPVLSMFLTKLLT 82
++G++ V ++ +PT P++G FV P + + P ++ +P ++ +L KLL+
Sbjct: 187 VEGKVLVGVKFLPTWPFIGRLRVCFVEPPYFQMTVKPMFTHGLDVTELPGIAGWLDKLLS 246
Query: 83 VDLPKLFVRPNKIVLDFQKGKAVGPVPNIIKSGEMPEGSKDCVGELSVTLVDARKL-PYL 141
+ + V PN +V+D + K V P + K+ V V +++A ++ P
Sbjct: 247 IAFEQTLVEPNMLVVDVE--KFVSPQ----QESWFKVNEKEPVAYAKVEVIEASEMKPSD 300
Query: 142 FYGKTDPYVILSLGDQIIRSKKNSQTTVIGPPGMPIWNQDFHM-LVSNPRKQKLSIQVKD 200
G DPYV +G R+K +T P W+++F + +++ L I V+D
Sbjct: 301 LNGLADPYVKGQMGVYRFRTKIQRKTLT------PKWHEEFKVPIITWESDNVLVIAVRD 354
Query: 201 ALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQ 232
F D +G V++ +D D + L+
Sbjct: 355 KDHFYDDILGDCTVNINEFRDGQRHDMWLSLK 386
>Glyma10g35410.1
Length = 545
Score = 50.8 bits (120), Expect = 2e-06, Method: Compositional matrix adjust.
Identities = 47/167 (28%), Positives = 76/167 (45%), Gaps = 19/167 (11%)
Query: 35 LIPTAPWVGAASWAFVSLPKIKFELSPFRLFNLMAIPVLSMFLTKLLTVDLPKLFVRPNK 94
L+PT P + + P + F ++ ++M+IP L F+ + + + L++ P
Sbjct: 185 LVPTFPCFANIVVSLMEKPHVDFGMN-VSGGDIMSIPGLYRFVQETIKKQVANLYLWPQT 243
Query: 95 IVLDFQKGKAVGPVPNIIKSGEMPEGSKDCVGELSVTLVDARKLPYL-FYGKTDPYVILS 153
+ + V K VG L V +V A+KL + G +DPYV LS
Sbjct: 244 LEIPILDESTVA--------------IKKPVGILHVNVVRAQKLLKMDLLGTSDPYVKLS 289
Query: 154 LGDQIIRSKKNSQTTVIGPPGMPIWNQDFHMLVSNPRKQKLSIQVKD 200
L + +KK TTV P WN+ F ++V +P+ Q L +QV D
Sbjct: 290 LTGDKLPAKK---TTVKRKNLNPEWNEKFKIVVKDPQSQVLQLQVYD 333
>Glyma15g13700.1
Length = 324
Score = 50.1 bits (118), Expect = 4e-06, Method: Compositional matrix adjust.
Identities = 35/107 (32%), Positives = 55/107 (51%), Gaps = 8/107 (7%)
Query: 114 SGEMPEGSKDCVGELSVTLVDARKLPYLFYGKTDPYVILSLGDQIIRSKKNSQTTVIGPP 173
S + EG + +G L V ++ L +DPYV+LSLG Q + QTT+I
Sbjct: 156 SSQRMEGMVEFIGMLKVKVIKGTNLAIRDIKSSDPYVVLSLGQQTV------QTTIIRSN 209
Query: 174 GMPIWNQDFHMLVSNPRKQKLSIQVKDALGF-ADLTIGTGEVDLGSL 219
P+WN+++ + V Q + ++V D F AD +G ++DL SL
Sbjct: 210 LNPVWNEEYMLSVPEHYGQ-MKLKVFDHDTFSADDIMGEADIDLQSL 255
>Glyma09g02830.1
Length = 324
Score = 50.1 bits (118), Expect = 5e-06, Method: Compositional matrix adjust.
Identities = 35/107 (32%), Positives = 55/107 (51%), Gaps = 8/107 (7%)
Query: 114 SGEMPEGSKDCVGELSVTLVDARKLPYLFYGKTDPYVILSLGDQIIRSKKNSQTTVIGPP 173
S + EG + +G L V ++ L +DPYV+LSLG Q + QTT+I
Sbjct: 156 SSQRMEGMVEFIGMLKVKVIKGTNLAIRDIKSSDPYVVLSLGQQTV------QTTIIRSN 209
Query: 174 GMPIWNQDFHMLVSNPRKQKLSIQVKDALGF-ADLTIGTGEVDLGSL 219
P+WN+++ + V Q + ++V D F AD +G ++DL SL
Sbjct: 210 LNPVWNEEYMLSVPEHYGQ-IKLKVFDHDTFSADDIMGEADIDLQSL 255
>Glyma15g39380.1
Length = 713
Score = 49.7 bits (117), Expect = 6e-06, Method: Compositional matrix adjust.
Identities = 48/212 (22%), Positives = 97/212 (45%), Gaps = 13/212 (6%)
Query: 25 IDGELWVKLRLIPTAPWVGAASWAFVSLPKIKFELSPF--RLFNLMAIPVLSMFLTKLLT 82
++G++ V ++ +PT P++G FV P + + P ++ +P ++ +L KLL+
Sbjct: 184 VEGKVLVGVKFLPTWPFIGRLRVCFVEPPYFQMTVKPLFTHGLDMTELPGIAGWLDKLLS 243
Query: 83 VDLPKLFVRPNKIVLDFQKGKAVGPVPNIIKSGEMPEGSKDCVGELSVTLVDARKL-PYL 141
+ + V K+++ + V + N+ +S K+ V V +++A + P
Sbjct: 244 IAFEQTLVEQEKLMVVIKLYPFV--ILNLTESW-FKVDEKEPVAYAKVEVIEASDMKPSD 300
Query: 142 FYGKTDPYVILSLGDQIIRSKKNSQTTVIGPPGMPIWNQDFHM-LVSNPRKQKLSIQVKD 200
G DPYV +G R+K +T P W+++F + +++ L I V+D
Sbjct: 301 LNGLADPYVKGQMGVYRFRTKIQRKTLT------PKWHEEFKIPIITWESDNVLVIAVRD 354
Query: 201 ALGFADLTIGTGEVDLGSLKDTVPTDRIVVLQ 232
F D +G V++ +D D + L+
Sbjct: 355 KDHFYDDILGDCSVNINEFRDGQRHDMWLSLK 386