Miyakogusa Predicted Gene
- Lj0g3v0271849.1
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= Lj0g3v0271849.1 tr|I3SP94|I3SP94_LOTJA Uroporphyrinogen
decarboxylase OS=Lotus japonicus PE=2
SV=1,97.05,0,UROD/MetE-like,NULL; UROD_1,Uroporphyrinogen
decarboxylase (URO-D); UROD_2,Uroporphyrinogen decarbox,CUFF.18097.1
(407 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma12g35880.1 731 0.0
Glyma12g35880.2 726 0.0
Glyma13g34500.1 721 0.0
Glyma13g34500.2 551 e-157
Glyma11g35910.1 397 e-110
Glyma18g02490.1 395 e-110
>Glyma12g35880.1
Length = 410
Score = 731 bits (1886), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 354/410 (86%), Positives = 373/410 (90%), Gaps = 5/410 (1%)
Query: 1 MATSVTSCGLGWKSSSLFAHSTTSGFNLISPSFKPKP----KFSLTCSVASSSSDPLLVK 56
MATS+ S LGWK SSLF S +GFN+ SP FK KP KFSLTCS ASSSSDPLLVK
Sbjct: 1 MATSINSSALGWKHSSLFVQSN-NGFNVASPPFKHKPPRSSKFSLTCSAASSSSDPLLVK 59
Query: 57 AARGDPVSRPPAWMMRQAGRYMAVYRKLAEKHPSFRERSETTDLIVEISLQPWKAFRPDG 116
AARGDPVSRPPAWMMRQAGRYMAVY+KLAEK+PSFRERSETTDLIVEISLQPW AFRPDG
Sbjct: 60 AARGDPVSRPPAWMMRQAGRYMAVYKKLAEKYPSFRERSETTDLIVEISLQPWNAFRPDG 119
Query: 117 VIIFSDILTPLPAFGIEFDIEDVRGPVIQSPIRSEEGLKALHSIDLDRLRFVGDSLKLLR 176
VIIFSDILTPLPAFG++FDIE+VRGPVI SPIRSEEGLK LH IDLDRL+FVGDSLK+LR
Sbjct: 120 VIIFSDILTPLPAFGVDFDIEEVRGPVIHSPIRSEEGLKVLHPIDLDRLKFVGDSLKILR 179
Query: 177 QEAGGHAAVLGFVGAPWTLATYIVEGGTTRTYTTIKSMCHTAPDILRTLLSHLSQAIADY 236
QE GGHAAVLGFVGAPWT+ATYIVEGGTTRTYTTIKSMCHTAP +LRTLLSHL+QAIADY
Sbjct: 180 QEVGGHAAVLGFVGAPWTIATYIVEGGTTRTYTTIKSMCHTAPHVLRTLLSHLTQAIADY 239
Query: 237 IVFQVESGAHCIQIFDSWGGQLPPSMWESWSKPYITEIVKVVKKKCPETPIVLYINGNGG 296
++FQVESGAHCIQIFDSWGGQLPP MWE WSKPYI EIV +VKKKCP PIVLYINGNGG
Sbjct: 240 VIFQVESGAHCIQIFDSWGGQLPPEMWERWSKPYIKEIVNLVKKKCPGVPIVLYINGNGG 299
Query: 297 LLERMVDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPASLFSPLSSLTEEIQRVVKC 356
LLERM DTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPA LFSPL +LTEEIQRVV+C
Sbjct: 300 LLERMKDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPAYLFSPLDALTEEIQRVVRC 359
Query: 357 AGPRGHILNLGHGVLVGTPEEAVAHFFEVARSLKFDTHFQNTTANDPELV 406
AGPR HILNLGHGVLVGTPEEAVAHFFEVARSL+FDT FQN TA P LV
Sbjct: 360 AGPRRHILNLGHGVLVGTPEEAVAHFFEVARSLQFDTLFQNNTAKGPNLV 409
>Glyma12g35880.2
Length = 409
Score = 726 bits (1873), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 354/410 (86%), Positives = 373/410 (90%), Gaps = 6/410 (1%)
Query: 1 MATSVTSCGLGWKSSSLFAHSTTSGFNLISPSFKPKP----KFSLTCSVASSSSDPLLVK 56
MATS+ S LGWK SSLF S +GFN+ SP FK KP KFSLTCS ASSSSDPLLVK
Sbjct: 1 MATSINSA-LGWKHSSLFVQSN-NGFNVASPPFKHKPPRSSKFSLTCSAASSSSDPLLVK 58
Query: 57 AARGDPVSRPPAWMMRQAGRYMAVYRKLAEKHPSFRERSETTDLIVEISLQPWKAFRPDG 116
AARGDPVSRPPAWMMRQAGRYMAVY+KLAEK+PSFRERSETTDLIVEISLQPW AFRPDG
Sbjct: 59 AARGDPVSRPPAWMMRQAGRYMAVYKKLAEKYPSFRERSETTDLIVEISLQPWNAFRPDG 118
Query: 117 VIIFSDILTPLPAFGIEFDIEDVRGPVIQSPIRSEEGLKALHSIDLDRLRFVGDSLKLLR 176
VIIFSDILTPLPAFG++FDIE+VRGPVI SPIRSEEGLK LH IDLDRL+FVGDSLK+LR
Sbjct: 119 VIIFSDILTPLPAFGVDFDIEEVRGPVIHSPIRSEEGLKVLHPIDLDRLKFVGDSLKILR 178
Query: 177 QEAGGHAAVLGFVGAPWTLATYIVEGGTTRTYTTIKSMCHTAPDILRTLLSHLSQAIADY 236
QE GGHAAVLGFVGAPWT+ATYIVEGGTTRTYTTIKSMCHTAP +LRTLLSHL+QAIADY
Sbjct: 179 QEVGGHAAVLGFVGAPWTIATYIVEGGTTRTYTTIKSMCHTAPHVLRTLLSHLTQAIADY 238
Query: 237 IVFQVESGAHCIQIFDSWGGQLPPSMWESWSKPYITEIVKVVKKKCPETPIVLYINGNGG 296
++FQVESGAHCIQIFDSWGGQLPP MWE WSKPYI EIV +VKKKCP PIVLYINGNGG
Sbjct: 239 VIFQVESGAHCIQIFDSWGGQLPPEMWERWSKPYIKEIVNLVKKKCPGVPIVLYINGNGG 298
Query: 297 LLERMVDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPASLFSPLSSLTEEIQRVVKC 356
LLERM DTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPA LFSPL +LTEEIQRVV+C
Sbjct: 299 LLERMKDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPAYLFSPLDALTEEIQRVVRC 358
Query: 357 AGPRGHILNLGHGVLVGTPEEAVAHFFEVARSLKFDTHFQNTTANDPELV 406
AGPR HILNLGHGVLVGTPEEAVAHFFEVARSL+FDT FQN TA P LV
Sbjct: 359 AGPRRHILNLGHGVLVGTPEEAVAHFFEVARSLQFDTLFQNNTAKGPNLV 408
>Glyma13g34500.1
Length = 410
Score = 721 bits (1860), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 348/410 (84%), Positives = 369/410 (90%), Gaps = 5/410 (1%)
Query: 1 MATSVTSCGLGWKSSSLFAHSTTSGFNLISPSFKPKP----KFSLTCSVASSSSDPLLVK 56
MATS+ S LGWK SS F S +GFN+ SP FKPKP FSL CS ASSSSDPLLVK
Sbjct: 1 MATSINSSALGWKHSSFFVQSN-NGFNVASPPFKPKPPRSSNFSLYCSAASSSSDPLLVK 59
Query: 57 AARGDPVSRPPAWMMRQAGRYMAVYRKLAEKHPSFRERSETTDLIVEISLQPWKAFRPDG 116
AARGDPVSRPPAWMMRQAGRYMAVY+ LAEK+PSFRERSETT+LIVEISLQPWKAFRPDG
Sbjct: 60 AARGDPVSRPPAWMMRQAGRYMAVYKNLAEKYPSFRERSETTELIVEISLQPWKAFRPDG 119
Query: 117 VIIFSDILTPLPAFGIEFDIEDVRGPVIQSPIRSEEGLKALHSIDLDRLRFVGDSLKLLR 176
VIIFSDILTPLPAFG++FDIE+VRGPVI SPI SEEGLK LH IDLDRL+FVGDSLK+LR
Sbjct: 120 VIIFSDILTPLPAFGVDFDIEEVRGPVIHSPIHSEEGLKVLHPIDLDRLKFVGDSLKILR 179
Query: 177 QEAGGHAAVLGFVGAPWTLATYIVEGGTTRTYTTIKSMCHTAPDILRTLLSHLSQAIADY 236
+E GGHAAVLGFVGAPWT+ATYIVEGGTTRTYTTIKSMCHTAP +LRTLLSHL+QAIADY
Sbjct: 180 REVGGHAAVLGFVGAPWTIATYIVEGGTTRTYTTIKSMCHTAPHVLRTLLSHLTQAIADY 239
Query: 237 IVFQVESGAHCIQIFDSWGGQLPPSMWESWSKPYITEIVKVVKKKCPETPIVLYINGNGG 296
+FQVESGAHCIQIFDSWGGQLPP MWE WSK YI EIV +VKKKCPE PIVLYINGNGG
Sbjct: 240 AIFQVESGAHCIQIFDSWGGQLPPEMWECWSKSYIKEIVNLVKKKCPEVPIVLYINGNGG 299
Query: 297 LLERMVDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPASLFSPLSSLTEEIQRVVKC 356
LLERM DTGVDVIGLDWTVDMADGRRRLGSGI VQGNVDPA LFSPL +LTEEIQRVV+C
Sbjct: 300 LLERMKDTGVDVIGLDWTVDMADGRRRLGSGISVQGNVDPAYLFSPLDALTEEIQRVVRC 359
Query: 357 AGPRGHILNLGHGVLVGTPEEAVAHFFEVARSLKFDTHFQNTTANDPELV 406
AGPR HILNLGHGVLVGTPEEAVAHFFEVARSL+F+T FQN TA DP LV
Sbjct: 360 AGPRRHILNLGHGVLVGTPEEAVAHFFEVARSLQFETLFQNNTAKDPNLV 409
>Glyma13g34500.2
Length = 308
Score = 551 bits (1419), Expect = e-157, Method: Compositional matrix adjust.
Identities = 262/300 (87%), Positives = 278/300 (92%)
Query: 107 QPWKAFRPDGVIIFSDILTPLPAFGIEFDIEDVRGPVIQSPIRSEEGLKALHSIDLDRLR 166
+PWKAFRPDGVIIFSDILTPLPAFG++FDIE+VRGPVI SPI SEEGLK LH IDLDRL+
Sbjct: 8 KPWKAFRPDGVIIFSDILTPLPAFGVDFDIEEVRGPVIHSPIHSEEGLKVLHPIDLDRLK 67
Query: 167 FVGDSLKLLRQEAGGHAAVLGFVGAPWTLATYIVEGGTTRTYTTIKSMCHTAPDILRTLL 226
FVGDSLK+LR+E GGHAAVLGFVGAPWT+ATYIVEGGTTRTYTTIKSMCHTAP +LRTLL
Sbjct: 68 FVGDSLKILRREVGGHAAVLGFVGAPWTIATYIVEGGTTRTYTTIKSMCHTAPHVLRTLL 127
Query: 227 SHLSQAIADYIVFQVESGAHCIQIFDSWGGQLPPSMWESWSKPYITEIVKVVKKKCPETP 286
SHL+QAIADY +FQVESGAHCIQIFDSWGGQLPP MWE WSK YI EIV +VKKKCPE P
Sbjct: 128 SHLTQAIADYAIFQVESGAHCIQIFDSWGGQLPPEMWECWSKSYIKEIVNLVKKKCPEVP 187
Query: 287 IVLYINGNGGLLERMVDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPASLFSPLSSL 346
IVLYINGNGGLLERM DTGVDVIGLDWTVDMADGRRRLGSGI VQGNVDPA LFSPL +L
Sbjct: 188 IVLYINGNGGLLERMKDTGVDVIGLDWTVDMADGRRRLGSGISVQGNVDPAYLFSPLDAL 247
Query: 347 TEEIQRVVKCAGPRGHILNLGHGVLVGTPEEAVAHFFEVARSLKFDTHFQNTTANDPELV 406
TEEIQRVV+CAGPR HILNLGHGVLVGTPEEAVAHFFEVARSL+F+T FQN TA DP LV
Sbjct: 248 TEEIQRVVRCAGPRRHILNLGHGVLVGTPEEAVAHFFEVARSLQFETLFQNNTAKDPNLV 307
>Glyma11g35910.1
Length = 387
Score = 397 bits (1019), Expect = e-110, Method: Compositional matrix adjust.
Identities = 192/380 (50%), Positives = 263/380 (69%), Gaps = 8/380 (2%)
Query: 13 KSSSLFAHSTTSGFNLISPSFKPKPKFSLTCSVASSSSDPLLVKAARGDPVSRPPAWMMR 72
KS+ +F+ +T+ + +PK ++++++PLL+ A RG V RPP W+MR
Sbjct: 15 KSTCVFSSKSTTPISCTLQGTVAEPK-------STAAAEPLLLNAVRGIDVERPPVWLMR 67
Query: 73 QAGRYMAVYRKLAEKHPSFRERSETTDLIVEISLQPWKAFRPDGVIIFSDILTPLPAFGI 132
QAGRYM Y+ + EK+PSFRERSE DL+VEISLQPW F+PDGVI+FSDILTPL I
Sbjct: 68 QAGRYMKSYQTICEKYPSFRERSENVDLVVEISLQPWHVFKPDGVILFSDILTPLSGMNI 127
Query: 133 EFDIEDVRGPVIQSPIRSEEGLKALHS-IDLDRLRFVGDSLKLLRQEAGGHAAVLGFVGA 191
FDI +GPVI PI + + + I + + +VG++L +LR+E AAVLGFVGA
Sbjct: 128 PFDIVKGKGPVIFDPIHTSAQVDQVKEFIPEESVPYVGEALTILRKEVDNKAAVLGFVGA 187
Query: 192 PWTLATYIVEGGTTRTYTTIKSMCHTAPDILRTLLSHLSQAIADYIVFQVESGAHCIQIF 251
P+TLA+Y+VEGG+++ ++ IK + + IL +LL + ++A YI +Q ++GA +QIF
Sbjct: 188 PFTLASYVVEGGSSKNFSKIKRLAFSESKILHSLLQKFTTSMARYIQYQADNGAQAVQIF 247
Query: 252 DSWGGQLPPSMWESWSKPYITEIVKVVKKKCPETPIVLYINGNGGLLERMVDTGVDVIGL 311
DSW +L P +E +S PY+ +I+ VKK P+ P++LY +G+GGLLER+ TGVDV+ L
Sbjct: 248 DSWATELSPVDFEEFSLPYLKQIIDTVKKSHPDLPLILYASGSGGLLERLALTGVDVVSL 307
Query: 312 DWTVDMADGRRRLGSGIGVQGNVDPASLFSPLSSLTEEIQRVVKCAGPRGHILNLGHGVL 371
DWTVDMADGRRRLG I VQGNVDP LF +T+ I V+ AG HILNLGHG+
Sbjct: 308 DWTVDMADGRRRLGPNIAVQGNVDPGVLFGSKEFITDRITDTVRKAGRGKHILNLGHGIK 367
Query: 372 VGTPEEAVAHFFEVARSLKF 391
VGTPEE VAHFFEVA+S+++
Sbjct: 368 VGTPEENVAHFFEVAKSIRY 387
>Glyma18g02490.1
Length = 387
Score = 395 bits (1014), Expect = e-110, Method: Compositional matrix adjust.
Identities = 186/347 (53%), Positives = 248/347 (71%), Gaps = 1/347 (0%)
Query: 46 ASSSSDPLLVKAARGDPVSRPPAWMMRQAGRYMAVYRKLAEKHPSFRERSETTDLIVEIS 105
++++ +PLL+ A RG V RPP W+MRQAGRYM Y+ + EK+PSFRERSE DL+VEIS
Sbjct: 41 STAAGEPLLLNAVRGIDVERPPVWLMRQAGRYMKSYQTICEKYPSFRERSENVDLVVEIS 100
Query: 106 LQPWKAFRPDGVIIFSDILTPLPAFGIEFDIEDVRGPVIQSPIRSEEGLKALHS-IDLDR 164
LQPW F+PDGVI+FSDILTPL I FDI +GPVI PI + + + I +
Sbjct: 101 LQPWHVFKPDGVILFSDILTPLSGMNIPFDIVKGKGPVIFDPIHTAAQVDQVREFIPEES 160
Query: 165 LRFVGDSLKLLRQEAGGHAAVLGFVGAPWTLATYIVEGGTTRTYTTIKSMCHTAPDILRT 224
+ +VG++L +LR+E AAVLGFVGAP+TLA+Y+VEGG+++ ++ IK + + IL +
Sbjct: 161 VPYVGEALTILRKEVDNKAAVLGFVGAPFTLASYVVEGGSSKNFSKIKRLAFSESKILHS 220
Query: 225 LLSHLSQAIADYIVFQVESGAHCIQIFDSWGGQLPPSMWESWSKPYITEIVKVVKKKCPE 284
LL + ++A YI +Q ++GA +QIFDSW +L P +E +S PY+ +I+ VKK P
Sbjct: 221 LLQKFTTSMARYIQYQADNGAQAVQIFDSWATELSPVDFEEFSLPYLKQIIDTVKKSHPN 280
Query: 285 TPIVLYINGNGGLLERMVDTGVDVIGLDWTVDMADGRRRLGSGIGVQGNVDPASLFSPLS 344
P++LY +G+GGLLER+ TGVDV+ LDWTVDMADGRRRLG I VQGNVDP LF
Sbjct: 281 LPLILYASGSGGLLERLALTGVDVVSLDWTVDMADGRRRLGPNIAVQGNVDPGVLFGSKE 340
Query: 345 SLTEEIQRVVKCAGPRGHILNLGHGVLVGTPEEAVAHFFEVARSLKF 391
+T+ I V+ AG HILNLGHG+ VGTPEE VAHFFEVA+S+++
Sbjct: 341 FITDRINDTVRKAGRGKHILNLGHGIKVGTPEENVAHFFEVAKSIRY 387