Subcellular Localization
min:
: max
Winner_takes_all: nucleus
Predictor Summary:
Predictor Summary:
- nucleus 4
- mitochondrion 3
| Predictors | GFP | MS/MS | Papers | ||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| CDY40476 | Canola | nucleus | 96.01 | 96.27 |
| Bra027115.1-P | Field mustard | nucleus | 97.87 | 95.34 |
| KRH00028 | Soybean | cytosol | 4.61 | 69.33 |
| CDY34669 | Canola | nucleus | 66.52 | 64.8 |
| CDY20972 | Canola | nucleus | 67.58 | 64.5 |
| CDY34859 | Canola | nucleus | 64.75 | 64.35 |
| CDY20595 | Canola | nucleus | 67.4 | 64.22 |
| CDX89177 | Canola | nucleus | 13.29 | 56.18 |
| CDX97959 | Canola | nucleus | 13.29 | 56.18 |
| KRH26366 | Soybean | nucleus | 54.12 | 53.04 |
| KRH44073 | Soybean | nucleus | 54.47 | 53.02 |
| VIT_12s0035g00400.t01 | Wine grape | nucleus | 54.21 | 52.9 |
| Solyc01g103960.2.1 | Tomato | nucleus | 53.41 | 51.1 |
| GSMUA_Achr6P17780_001 | Banana | nucleus | 50.75 | 48.27 |
| Zm00001d015212_P006 | Maize | nucleus | 48.72 | 46.81 |
| TraesCS2A01G304900.1 | Wheat | nucleus | 48.8 | 45.88 |
| TraesCS2B01G321700.1 | Wheat | nucleus | 48.63 | 45.71 |
| TraesCS2D01G303500.1 | Wheat | nucleus | 48.54 | 45.63 |
| EES06253 | Sorghum | nucleus | 47.74 | 45.1 |
| Os04t0433800-01 | Rice | nucleus | 47.74 | 44.55 |
| CDY41637 | Canola | nucleus | 11.6 | 39.22 |
| HORVU2Hr1G075870.8 | Barley | nucleus, plastid | 21.35 | 38.75 |
| CDY66905 | Canola | nucleus | 19.57 | 36.29 |
| CDY27743 | Canola | nucleus | 19.57 | 36.29 |
| CDY12420 | Canola | nucleus | 22.23 | 30.31 |
| CDY64039 | Canola | nucleus | 16.39 | 25.8 |
| CDY03955 | Canola | nucleus | 15.85 | 19.44 |
| CDY15702 | Canola | nucleus | 15.85 | 18.42 |
| CDX80626 | Canola | golgi, mitochondrion | 11.25 | 16.87 |
| CDX80633 | Canola | nucleus | 4.61 | 14.05 |
| CDX80627 | Canola | nucleus | 4.61 | 13.98 |
| CDY27742 | Canola | mitochondrion | 0.09 | 4.0 |
Protein Annotations
| Gene3D:1.10.10.10 | Gene3D:1.10.150.80 | MapMan:13.3.6.5.3.1 | Gene3D:3.40.50.300 | GO:A0A078FL17 | UniProt:A0A078FL17 |
| EnsemblPlants:CDY12873 | ProteinID:CDY12873 | ProteinID:CDY12873.1 | ncoils:Coil | InterPro:DEAD/DEAH_box_helicase_dom | InterPro:DNA/RNA_helicase_DEAH_CS |
| InterPro:DNA_helicase_ATP-dep_RecQ | GO:GO:0000166 | GO:GO:0003674 | GO:GO:0003676 | GO:GO:0003824 | GO:GO:0005488 |
| GO:GO:0005524 | GO:GO:0005575 | GO:GO:0005622 | GO:GO:0005623 | GO:GO:0006139 | GO:GO:0006259 |
| GO:GO:0006260 | GO:GO:0006281 | GO:GO:0006310 | GO:GO:0006950 | GO:GO:0008026 | GO:GO:0008150 |
| GO:GO:0008152 | GO:GO:0009058 | GO:GO:0009987 | GO:GO:0016043 | GO:GO:0016787 | GO:GO:0032508 |
| GO:GO:0043140 | GO:GO:0044237 | EnsemblPlantsGene:GSBRNA2T00070529001 | InterPro:HRDC-like_sf | InterPro:HRDC_dom | InterPro:Helicase_ATP-bd |
| InterPro:Helicase_C | InterPro:IPR001650 | InterPro:IPR002121 | InterPro:IPR014001 | InterPro:IPR036388 | InterPro:P-loop_NTPase |
| PFAM:PF00270 | PFAM:PF00271 | PFAM:PF00570 | PFAM:PF09382 | PFAM:PF16124 | ScanProsite:PS00690 |
| PFscan:PS50967 | PFscan:PS51192 | PFscan:PS51194 | PANTHER:PTHR13710 | PANTHER:PTHR13710:SF105 | InterPro:RQC_domain |
| InterPro:RecQ_Zn-bd | SMART:SM00487 | SMART:SM00490 | SMART:SM00956 | SUPFAM:SSF47819 | SUPFAM:SSF52540 |
| TIGRFAMs:TIGR00614 | UniParc:UPI0004EE981C | InterPro:WH-like_DNA-bd_sf | SEG:seg | : | : |
Description
BnaA09g14010DBnaA09g14010D protein [Source:UniProtKB/TrEMBL;Acc:A0A078FL17]
Coordinates
chrLK032028:-:51754..58665
Molecular Weight (calculated)
126140.0 Da
IEP (calculated)
8.317
GRAVY (calculated)
-0.458
Length
1129 amino acids
Sequence
(BLAST)
(BLAST)
0001: MVVVTRDDRL AGARPHVQPM SMSAASKMCG SHLPEAQKSR VHLPQTNWLK HANAFECIPS SNNFLSSSML YSLESQKPST SRETASRPIY NIIPVDVQTL
0101: AHQHISKAWC ALANLSINNT YLRPGITPAI DDINTNCSFS TRGRSTAKVT SNTDGSFFAH NHQEDSQKRI RGTATSFDRF SSSSPGDGKL ISGKVPRVYN
0201: EVRDSVTGCI NGMEVPPIRN FAHPARQVEV IEIDDDDILK SIDVEQIVME HYHSSCTHQP SFNIFASRGE ENPSLPPELC SNCSHGVKLG LCLQAPSHVE
0301: QMKDALLAVS NELLDDSTDL SPGHFEQLCQ ERLLLKKQIQ LLEILIQDKE KKNSECLASR PSHNIQYETP QTTNHKADYA QADSRAHIKE QGRYVSDNWN
0401: MPRDYLCSED SSRDFPWTKN LEVNNKRVFG NHSFRPNQRE IINATMSGCD VFVLMPTGGG KSLTYQLPAL ICAGITLVIS PLVSLIQDQI MNLLQANIHA
0501: ASLSAGMDWT QQLDILRELS SENSKYRLLY VTPEKVAKSD SLLRHLESLN SHSLLARFVI DEAHCVSQWG HDFRPDYQGL GILKKKFPKI PMLALTATAT
0601: ASVKEDVVQA LGLVNTVVFR QSFNRPNLWY SVVPKTNKCL EDIDQFIKKN HFDECGIIYC LSKMDCEKVT ETLRKLGHKA AFYHGSMDPG KRAFVQKKWS
0701: KDEINIICAT VAFGMGINKP DVRFVIHHSL PKSIEGYYQE CGRAGRDGQR SSCVLYYCYS DYIRVKHMIS QGGPGQSTMT TGYNRIASSG RTLESNTDNL
0801: LRMVSYCENE VDCRRFLQLV HLGENFDSTN CKNTCDNCSS SKTLIEKDVT LIGRQLVEIV KLTGERFSSA HIVELYRGSL NQTVKKHRHE TLHLHGAGKH
0901: LSKSEASRIL HYLVTKDILT EYVKKSDLYG SVSSLLKVNR SKAASILSGG QTIEMRFPSA VKAVKPSKQG PTPARVALKQ TTLPMAPAPP QDSILSDTLV
1001: KALKKLRADI VKESSDAVMS YHIFGNPTLQ QISKRLPRTK EELLDIHGLG KAKVSKYGDR LLETIESTIN NHYGTNKNEG TGSGKRRRDE NTNPIVVDND
1101: DDDPDWTPSQ QSYKKAYAVR GQTSEEAIC
0101: AHQHISKAWC ALANLSINNT YLRPGITPAI DDINTNCSFS TRGRSTAKVT SNTDGSFFAH NHQEDSQKRI RGTATSFDRF SSSSPGDGKL ISGKVPRVYN
0201: EVRDSVTGCI NGMEVPPIRN FAHPARQVEV IEIDDDDILK SIDVEQIVME HYHSSCTHQP SFNIFASRGE ENPSLPPELC SNCSHGVKLG LCLQAPSHVE
0301: QMKDALLAVS NELLDDSTDL SPGHFEQLCQ ERLLLKKQIQ LLEILIQDKE KKNSECLASR PSHNIQYETP QTTNHKADYA QADSRAHIKE QGRYVSDNWN
0401: MPRDYLCSED SSRDFPWTKN LEVNNKRVFG NHSFRPNQRE IINATMSGCD VFVLMPTGGG KSLTYQLPAL ICAGITLVIS PLVSLIQDQI MNLLQANIHA
0501: ASLSAGMDWT QQLDILRELS SENSKYRLLY VTPEKVAKSD SLLRHLESLN SHSLLARFVI DEAHCVSQWG HDFRPDYQGL GILKKKFPKI PMLALTATAT
0601: ASVKEDVVQA LGLVNTVVFR QSFNRPNLWY SVVPKTNKCL EDIDQFIKKN HFDECGIIYC LSKMDCEKVT ETLRKLGHKA AFYHGSMDPG KRAFVQKKWS
0701: KDEINIICAT VAFGMGINKP DVRFVIHHSL PKSIEGYYQE CGRAGRDGQR SSCVLYYCYS DYIRVKHMIS QGGPGQSTMT TGYNRIASSG RTLESNTDNL
0801: LRMVSYCENE VDCRRFLQLV HLGENFDSTN CKNTCDNCSS SKTLIEKDVT LIGRQLVEIV KLTGERFSSA HIVELYRGSL NQTVKKHRHE TLHLHGAGKH
0901: LSKSEASRIL HYLVTKDILT EYVKKSDLYG SVSSLLKVNR SKAASILSGG QTIEMRFPSA VKAVKPSKQG PTPARVALKQ TTLPMAPAPP QDSILSDTLV
1001: KALKKLRADI VKESSDAVMS YHIFGNPTLQ QISKRLPRTK EELLDIHGLG KAKVSKYGDR LLETIESTIN NHYGTNKNEG TGSGKRRRDE NTNPIVVDND
1101: DDDPDWTPSQ QSYKKAYAVR GQTSEEAIC
0001: MINSNQMSRS HLPEVQKPRG PQTNWSEHAK ALESSSSVTK FLSSNVLYAL ESQKPRDMAA RSIAFPSVNV HTLAHPQISK AWRALSSLSV NNTYLRPGVT
0101: PPIDVGTNDS YSARERSTAK VISSTGGSVY SSTRPNLSAM NVSGTGRSFH SFPSSVPGDD KIVAEKFPRG NNEIRESEPS CTHLNGVEKS FGNSAFPAEQ
0201: FESRKACLDD MDDDDILENI DVDQIVMEHY HSTSTPQPSV SNFSLRTPPV DRSASRLEEE CNLPPELCSN CSHGIKLGLC PEASTHVEQM KDVLLAISNE
0301: LLDDATDLSP DRVGQLRQER LRLKKQIQQL ENHIRDKESQ KSQFLSSTAT RIFQYETPKS TNYKMDQPQT DFRAHVSDQG RYACDSWNTP RDSSFSVDRY
0401: GLSSAPVERE QYVPKIIDVT YTEGSNDKKW SSREFPWTRK LEVNNKKVFG NHSFRPNQRE IINATMSGSD VFVLMPTGGG KSLTYQLPAL ICGGITLVIS
0501: PLVSLIQDQI MNLLQANIPA ASLSAGMEWA EQLKIFQELN SEHSKYKLLY VTPEKVAKSD SLLRHLENLN SRGLLARFVI DEAHCVSQWG HDFRPDYQSL
0601: GILKQKFPNI PVLALTATAT ASVKEDVVQA LGLVNCVVFR QSFNRPNLWY SVVPKTKKCL EDIDKFIKEN HFDECGIIYC LSRMDCEKVS ERLQEFGHKA
0701: AFYHGSMEPE QRAFIQTQWS KDEINIICAT VAFGMGINKP DVRFVIHHSL PKSIEGYHQE CGRAGRDGQR SSCVLYYGYG DYIRVKHMIS QGGVDQSPMA
0801: TGYNRVASSG RLLETNTENL LRMVRYCENE VECRRFLQLV HLGEKFDSTN CKKTCDNCCS SQSLIDKDVT LITRQLVELV KQTGERFSSA HILEVYRGSL
0901: NQMVKKHRHE TLQFHGAGKH LSKIEVSRIL HYLVTEDILV EDVRKSDMYG SVSSLLQVNN AKATILFSGS QTIVMKFPSS VKVLKPSKQG ATAAKGPLTS
1001: EKQSTLPLTT EDAPPKDVNL SANMYTALRK LRTALVKEAP DGVMAYHIFI NSTLQQISRR IPRTKEELLE INGLGKAKVS KYGDQLLETI ETTVNEYYGT
1101: NKKDSIISND SPDSGKRRRD ENISPNVAED DDFEVSPSQS CKKTVRNKSN EVLHGECIDG DRRGMELDFD FKDEDGSEIR PEGRVLPW
0101: PPIDVGTNDS YSARERSTAK VISSTGGSVY SSTRPNLSAM NVSGTGRSFH SFPSSVPGDD KIVAEKFPRG NNEIRESEPS CTHLNGVEKS FGNSAFPAEQ
0201: FESRKACLDD MDDDDILENI DVDQIVMEHY HSTSTPQPSV SNFSLRTPPV DRSASRLEEE CNLPPELCSN CSHGIKLGLC PEASTHVEQM KDVLLAISNE
0301: LLDDATDLSP DRVGQLRQER LRLKKQIQQL ENHIRDKESQ KSQFLSSTAT RIFQYETPKS TNYKMDQPQT DFRAHVSDQG RYACDSWNTP RDSSFSVDRY
0401: GLSSAPVERE QYVPKIIDVT YTEGSNDKKW SSREFPWTRK LEVNNKKVFG NHSFRPNQRE IINATMSGSD VFVLMPTGGG KSLTYQLPAL ICGGITLVIS
0501: PLVSLIQDQI MNLLQANIPA ASLSAGMEWA EQLKIFQELN SEHSKYKLLY VTPEKVAKSD SLLRHLENLN SRGLLARFVI DEAHCVSQWG HDFRPDYQSL
0601: GILKQKFPNI PVLALTATAT ASVKEDVVQA LGLVNCVVFR QSFNRPNLWY SVVPKTKKCL EDIDKFIKEN HFDECGIIYC LSRMDCEKVS ERLQEFGHKA
0701: AFYHGSMEPE QRAFIQTQWS KDEINIICAT VAFGMGINKP DVRFVIHHSL PKSIEGYHQE CGRAGRDGQR SSCVLYYGYG DYIRVKHMIS QGGVDQSPMA
0801: TGYNRVASSG RLLETNTENL LRMVRYCENE VECRRFLQLV HLGEKFDSTN CKKTCDNCCS SQSLIDKDVT LITRQLVELV KQTGERFSSA HILEVYRGSL
0901: NQMVKKHRHE TLQFHGAGKH LSKIEVSRIL HYLVTEDILV EDVRKSDMYG SVSSLLQVNN AKATILFSGS QTIVMKFPSS VKVLKPSKQG ATAAKGPLTS
1001: EKQSTLPLTT EDAPPKDVNL SANMYTALRK LRTALVKEAP DGVMAYHIFI NSTLQQISRR IPRTKEELLE INGLGKAKVS KYGDQLLETI ETTVNEYYGT
1101: NKKDSIISND SPDSGKRRRD ENISPNVAED DDFEVSPSQS CKKTVRNKSN EVLHGECIDG DRRGMELDFD FKDEDGSEIR PEGRVLPW
Arabidopsis Description
RECQL4AATP-dependent DNA helicase Q-like 4A [Source:UniProtKB/Swiss-Prot;Acc:Q8L840]
SUBAcon: [nucleus]
SUBAcon: [nucleus]
Hydropathy Plot
About CropPAL
The Protein Annotated Locations Database (CropPAL) houses large scale proteomic and GFP localization data from published experimental studies in Soybean (Glycine max), Maize (Zea mays), Wheat (Triticum aestivum), Barley (Hordeum vulgare), Rice (Oryza sativa), Field mustard (Brassica rapa), Canola (Brassica napus), Sorghum (Sorghum bicolor), Potato (Solanum tuberosum), Tomato (Solanum lycopersicum), Banana (Musa acuminata) and Wine grape (Vitis vinifera) as well as precomputed predictions for protein subcellular localizations using protein sequences.