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LotjaGi2g1v0194000.1

Overview

Field Value
Gene ID LotjaGi2g1v0194000
Transcript ID LotjaGi2g1v0194000.1
Related isoforms 1
Lotus japonicus genome version Gifu v1.2
Description Chaperone protein DnaJ; TAIR: AT3G17830.1 Molecular chaperone Hsp40/DnaJ family protein; Swiss-Prot: sp|Q8DKR7|DNAJ_THEEB Chaperone protein DnaJ; TrEMBL-Plants: tr|I1KJ68|I1KJ68_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0194000
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr2:62704247..62711714) extracted from Lotus japonicus Gifu genome v1.2.

CTTTCAAGGATTATTATTTTGTTTTTCCTTAGTGCAAGATGAACACAAGAAACCCTATATCTTTGAGACACTCAAGTAAT TATTCACTCCCATTAAATTATAGTCACATACCATTAAATTATGGTACTCATCCAACAAAGAATTGTACCCCTCTTAAACC CTCTTCTTCTATACCCATTAACCAGTTAGCTAGCTTACTCTTCCTTGTGAACAAACATGATGTATCAAATTCCTTCTTCT GCATCATCCATGTCATTCACCCACACACCACCATTCTCCAATGCATCATCACCACCTTCTTCTTCTTCCACTATCACTTT CGTCACCTATGCTAGATTCAGTGCCACCACAGCTTCCATGCTCCAGCACCGGACGGCAAGCCGTTTTCCCTTTTCTGCCA CCAGGAACCGCCCCCGTGCGGCGGTGGCGGCGATTAGAGCCAAAGCTGAAACTGATTTCTACTCCACTTTGAATGTCAGC AGCAGTGCTACCCTTCAGGAAATCAAGAGCTCTTATCGGAAACTAGCTCGAAAGGTTGGATCTTTTTTTTCTTTTTTTTT CTGGGTCATGGAGATTTTCGTGTATTTTGATGTGGTTGAGTGGTAATTTTAGTGGGTCAAGTTTGGTTTATGGGGAAATG GAGCTACTGAAGAGAAATTGGAATCTGGGGTATCTGGTTTTTCAGGGAAGTTTATGCGTGATTATTGTTTTTCTCTGTTA ATTTCTAGCTTGGGAAATGGTAAGGCAATTGGACAAGTTAATGCTCTGTAAAAATTGCATGTGAATAATTTTTCTCTGCC TTATGTTGGGTATGCTTGGTTGAGTACTTGAGTTGAGAGTGAGTAGATGAAGATATAGTAGTAAAAAATCACTTTAAATT TGCTTGATATAAAAGACAATATGAGAATTGAGAAGCAGAAAATCTCTTTGTACTTTAAACAATGAGGCATAAGTTGGTTG AAAATGGATTCCTTCTCCGCTAATCTGTGTGAAATATAACTTCTTGATTCATGAATCATTGTGTCCTTTATATCAAAGCA CACCAAGCTCTATTTTTATTAGCGAAATTTACTTGGCTTGCCAAAAGGCCTCATCTCTAGAAGCCCGGCTCGCGAGGTGT CCCTCTCGCAGTAGGACTCCAAACCTCGCCTCGCTCTTGTGACATGCTATGTTTCCCCTCTTCATTCCCAAGTAAAGGGT GAGTCCCATGCGTCAGTTTGTGGATCGCGGTCTCACACACTAATCCCTACAGGTGCCCATAGTGGGCCGGCCGCCCTACC TAAACCAATCATTAATCACTTTCGTTTATTAGATTTATCTGAAGTTAGTGATTCCAAAGTTTTATGAAAATGTGTATAAG GCATTTGGTGCACTTATAGTTCTTGTAAATATACAATGTAAAGTTGTGCTGGCTAGCTGTAAAACCAATTATATACCTTC ACCCAACAACTTAAGCTTTTGGTAATATTGTTTCTTGACATGATGTGAGGGCCTCTGTGACCATGTAGTCTAGAATTCAA TTCTTCTCAAAACTCAATAAGAGTTAAATTTCTGCACAAGGTAAAATTTGCTTGTCTACGTTTTAACTTTTAAGCCTGGA TGATACATGGCATTGTCTACGTTTTAACTTTTAAGCCCAAAGCTCGTGCACAGGGGTGTTTCAAATGTAAAATCACTAAT GTAATTTTACCCAACAACATGTGCTTTTTAGATAATTTGTTAATAACCAGGCGTTTTTTTTCTTCATTTGGGAACCAGTA TCATCCAGATATGAACAAATCCCCTGGGGCAGAGGACAAGTTCAAGGAGATTAGTGCTGCATATGAGGTAATGCTTCTTC CACTGAAGTGATATTTTTTCAATTGTTAGCCAAATATGATCAATCAGGACCTATATTTGGATATAATTAAGGGGCTTTTT CTACATTCTAGCGCGATGCGTAATCATTTTTCATTCTGTTCTTGTATTCTATTTGTTCATAATGTGAAGTCTGAACGATG GCATTATAGTATTTTCTTCATCTGTGATATAATGCTAGATTAATGAGAATGATGGATTATTGTATTGCTTCATAGATCAT AGCTGCTCATGTGCTATATTTGTATCTGTATCTTTTTATTCACATGGTGACAAAGCATGCAAATAGGTCCTATCAGATGA TGAGAAAAGATCTTTATATGATCGCTTTGGTGAGTCAGGTCTACAAGGAGAGAATGAAGGGCCAGCAAGTGCATCTGGGG TATGTGTAAATTCAAGTCTTCTACTTTGTGCAATGCTAAAGACTCTTGATATGATGAAATACTTCCATGAAAGTAAAAAC TGTTACTTTCTTTTCTTTTAAAACAGACCTCAATCTTCGTATTCCATTTTTACTGCTGATGCCTTTGAATTGATCAGGTT GATCCTTTTGATTTATTCGAGGCATTCTTTGGTCGTTCAGATGGACTATTTGGAGATAGTGATGAAGGGGGCTTCAACTT CAATATGAGAAACAATAGAAACCGTGGCCAAGATATCCGGTAACTATGTCTCAATTTGCTTTTGAATCGTTACATAGAAA GGTAGTTTAGAACAGTTCACTCATGTGCTAAGAATGACCAAATTCTTAGAATTAACTGGGGGATTACAGGACACAGCCTT TATGACTGAGTTTTTATTTCTTTTTGTCTAGCATTCTCTTGACCAAGGTTTTTTACCCTTGTTTGTATAAAGAATAAATT TATCTAACATAAGATGTTAGAACTGCAAGTTGGGGGACAAGGTCTGTTCCTGAAATAAAAATAAATAATAAAGGATAAAC AAGAATTTTGCATAAATTTAACTTTGTTTTATAAGAATGGAGATGTTAAGAATTCAATTATATACCATACATGGTTGTAA AGGCTTTGACACCATGTTACAAATCAACAATCTCAAAAGCTTACGCTGTAGGTGGAGCAGTTTGACATTACATCTCAAAT CAATGAGGTTTTGTCATACACCCAATTTATTGATACATAAATTTAATGAATTTATCAGAAGCTTTACATGTTATGCATCA AGTGAGACATCACATAGAGGCAAGAAGATTGCTGGAGTTCCTCTTTCCTTTATATATCATGCTATTTTTTATACCTGACT GTAAAACAGCTAGAAGTTTGCGCAAAAATACATGGCATTAACTTAATTTTATTCTAAAATGCAGGTATGACCTTCATTTG AGCTTTGAAGAATCAATTTTTGGAGGTCAGAGGGAGATTGAAGTTTCTTGTCTTCAGACATGTAATATTTGTGATGGTAC AGGAGCTAAATCAAAGAGTTGCATTAAACAATGCACAAATTGTGGTGGCAGAGGAGGAGAAATGAGAAGTCAAAAAACAC CCTTTGGAATGATGTCTCAGGTAATTTAAATGAAATAGATTTAATCAGCTATATTATTACAAGGATATTTACATCATATG ATATTCAGGTTTCTACCTGCTCTAAGTGTGGGGGTCTTGGAAAGATAATCACCGATCACTGTCGAAAATGTGATGGCAGT GGTCAGTTACAAGCTAAACGAACAATGGAAGTGGCCATTCCTCCTGGCCTCAACGATGGAGACACAATGCGAATTCGAGG AGAAGGGAATTATGATAAGAATAGGTTAGCAGCATGCCCATTAATGTTTTGCTTGTATCTGTATACCCTCTTAGGATCTA TCTGCAATACATGAATTTGCAGCACATGTAAATTCTCCTTAATTTTGACTTGATCATACTGTGATCTCTGAGTTGCATTC TAGTTAAGTATAATAAACATAAATAGAAGTTGTAATGTAGACTGTAAACCAGAGTTTCTTCACATTTATATGTAAATATC AAATTGTTCATATGGATAAGCTTACAACAACAAAGCCTTATCCTACTAATTCTTGGTTTGCAGGAAATTCTTTAACTAGT TCATGATGAAGTCGCCCATGATTTATTATTCATGTCAGTTACCCCATAACCGCTCCAATTCATTTTATTTTATGTAATGA TGAAAAAAGATATTACTTTATCTGAGGCCCAAGAGAACGTTATGAAAAAAGTTCACATTTTCATCAGACTTTTGATTTGC AGCCAGAAGCAGAAATATAGTCAGAATCACAATAGTTCTACTCATCTAAGTGCTAACTATCAATTTGTGCATTCTTTTCA GGCGTAAAACTGGGGATCTTTTTGTGGTCCTCCATGTAGATGCAAAGCAAGGAGTTTGGAGAGAGGGTCTTCATTTATAC TCAAAGATTAACATTGACTTCACAGAGGCAATACTGGGGTCAGTTAAAAAGGTATTTGCTAACACAAAAAAGAAAAGTAA CACTGGTGGTGCCTAATGCATATTAAAAGAAAAATGTTGATTTAGATAATTATTTTATTTAAGAATTTTATCTTATTTCG GGATCTTTCCTTATTTTTAGGGATTTTATTGAGATTTGTTATTGAAATATTTTTCTTATTTTAGGGATCTTTCCTACTTT GAGGATCTTATCTTTAACAAGTTATTTGAATTTGATTTGACTAGAACTTGACCTTCTCTTGGTTATAATTGATACCCTTG TAGGTGTCTTCGTTTTGACATTGATTAAGAAATTATCACGTTTAAAGTCTGAGGATTTGTTGTTTTGGATTTCTGAGAAT TCCTGGGCATTCGAACCCTGGTTCTTGGTTGTTTCTTAGTCAAGTTAGTAGTTTAAATGTAGTTCCTGGAAGGCTGGTAC CATTGCGGACATACACATCACATTTGTCACCTTTGATGCAGACAACTGGAAAGAATTATCTTTGGTGCATTTTTTTAATA TACAAAGTAGTACTATGTTTTTGGCCATTCATTGGAGCTCAGCTTTTTGTAGTTTCTGTAGAGGTTTTCTAAATGACTGA TATGTGAAAAGGTTGACAGCTTTGTTGATTTTTTTCTTTTTCTTGCCACATTGGGTCACCATTTTCCTTTATTGTCTTTA CTTAGGAAGATTTATTATCCTCTATAGATGATAATCTCTTCTTTGTCTAATAATTTATTCTACTTTAAAAATGAAAATAT TGTTGAACCACAGAGTTTATTGTTCACTTCAGAATAGGTCTTTCCGCTTTGCTAGCAATATCATATACTGCATTTAACAC AGTTATATACCCAGACAGTCATGCTTCCAAGGCAACCATGGTTGATTTTCTATCTTCTGCATTTAATATTTTTTAAGAAC AATTAATAATTATATATCTTCCATGTGGTTGATGGTCATGCTTCAATAGGCATTTCCAAAATAGTATACCAATATTTTAT GGTTGGAGAGGCTTTTGTAATCCCTGGAAGTCCATATTATTATTTTAGCCATATTTAAATGTGCTCTATATGCAGCAAAA TTTCAAGTTTGATCATTATATATGTTTTTTCAGGCATTTCGTAGTCTTCAATAATTCGTAATATAAAGAAATTTCTTGGG GCTTTTGTATGTTTTGACTTAAAACTTGGTGAGTTCAGGTAGAAACTGTTGAAGGTTCTAGGGATCTCCAAATTCCCTCT GGGATTCAACCTGGAGATTCAGTTAAGATCTCACGCTTGGGAGTTCCAGACATGAATAAACCATCTATTCGAGGCGATCA TTTTTTCATTGTGAATGTTCTTATTCCTAAGGATATCAGGTCTGTAGTTCTCTGACCATCTTTTGATCTTTCTTATACCC TTAAGAAATAATTTATAATTGACTATTATCTAATTTAAAATTTCACACGTACTAGAAACTTCCTTCTTTTGTGGGAGCTT CTGTGCAGAATACTTGTTACATTGATTGTGGTTCACATGAGCAGCAATTTTCAGTAAATATTTTATTTTCAGCCTTTATT CCCCTTTCTTGCAGTGCATTTAATGTTGATATTGGAGTACACATTATCTAACATCCAGCAGTATACTTTGCACCTAAAAT TTGGGTGTGCACTTTGTACTTGCAGTAATCCTTGAAAGATGACATGCTTTCCTCCATTGAAGATGAGTTTGAAATTCTTT GTATAACAAATTTTGTTTAGTGGATTGTGAGGACATATTACTTCACATTGAAAAAAAAACATATACAGCAGTTAGCTTCA TAATAAGTGAATCCTTCCTCATAAGTGAATACATTGCTACTTATATTTCACGAAGTTTCTTATAGTTGTGTGTGATTTCT TTTCATTCTCTTCAAACCCTTCTTGTTCTAGTGGCACCGAACGTGTACTTGTTGAGCAGTTAGCTTCACTAAGAACACCC AGCAAAGGTGATTCAGCGTCTTCGAATGACATTGGTAATAGTTCATTTTACCTAGATACTGTAAAATTAAAGAAGAGTTG TTTGAAATTATGCTGAACATACATGCAAAAAAGATTATTCAGGATTTTTCATAATCGTGCTTTGTAGGGATACCTGAAGG AAAACTCGATGAATTTATAAAGAGGGATCCTAAATGTGATGCTTCAACCAAGGGATTAAATTCAGTGTGGAGATCAATCA CGAACTTCTTAAGGTATAGTAGAGCTGCACTGTACTTCTTAAGTTATAGTACATACACTATATGTACTATATCAACAATC ACGTGTGATTTCGCATGAATGTTTAGAATTGGACAACATGAATTGTCCTGAACAAAGAAGGCAGTACCATCCTTTAATAT TTAGATGAAATAAAGAATCTTGAAGCTCTTGACAAAACTAATCTTCCAAGCATAGAAGTGTTAATGAATTATGCAGAGAC AAGATTCTTACTCATTTCTTTATGTACAGGGGAGGACAATCTGAAGAAAGGTTTGCTTCAATTAGCCAGGATGCATCACA TGCATCCTTGTGGAGATTCGGCCACCAAAATCATTCAGTCCCAGATTCCTTTTTTGTTATTTTCATTTTAACATTGATTT TTGCATCTATAGCAAAGTCTAAGAACTCATTGACCCAATACTTCATTAATAGAACACACAGTGAAAAATTTTGAGGGTAT TGGTGGTATAAAAACTCGAAAATAAGGAGAGTGAAAGTGGAGTGGGATGGAAAGGTTTTGGTTTCATGCCTTGATGCTTG GTAGAGGGCGATTTTCAGCTATAATTGAGAGAGCCACATCACTCCACTTTCAAGCAAGTGTTTGTAATTTTCTTCCAAAT CTTTCAGCCATCTATTTTTAGCCCAAATGCCCCCGAAAACATTCTTTTTGAGCTAGATTAAGGGCTTGAATTCTCCTTTT GTGTTTTTCCCCATCCTTGATTAGCTAGGGCACAATATCCATTTTAGGATTTAGGAACTACAGTGAGGCATAAATTGTAA TCTCTACACCTTTGGCGGCTGGTGTTCAAACATGTTCCTTCGATATTTGAAGTTGGTGTGGTGTGTGATTGTGAATCCTT AACATTTGTAAATAGTGCTAAAGAAAGTGAAGAGAAAGTGTTTACAACTGATACTGTTGGTTGGCCATTGCTCTAAATTA TATTTGAATACATGACTTTGTTGCCAAG
Download Genomic Sequence

CDS sequence (LotjaGi2g1v0194000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGATGTATCAAATTCCTTCTTCTGCATCATCCATGTCATTCACCCACACACCACCATTCTCCAATGCATCATCACCACC TTCTTCTTCTTCCACTATCACTTTCGTCACCTATGCTAGATTCAGTGCCACCACAGCTTCCATGCTCCAGCACCGGACGG CAAGCCGTTTTCCCTTTTCTGCCACCAGGAACCGCCCCCGTGCGGCGGTGGCGGCGATTAGAGCCAAAGCTGAAACTGAT TTCTACTCCACTTTGAATGTCAGCAGCAGTGCTACCCTTCAGGAAATCAAGAGCTCTTATCGGAAACTAGCTCGAAAGTA TCATCCAGATATGAACAAATCCCCTGGGGCAGAGGACAAGTTCAAGGAGATTAGTGCTGCATATGAGGTCCTATCAGATG ATGAGAAAAGATCTTTATATGATCGCTTTGGTGAGTCAGGTCTACAAGGAGAGAATGAAGGGCCAGCAAGTGCATCTGGG GTTGATCCTTTTGATTTATTCGAGGCATTCTTTGGTCGTTCAGATGGACTATTTGGAGATAGTGATGAAGGGGGCTTCAA CTTCAATATGAGAAACAATAGAAACCGTGGCCAAGATATCCGGTATGACCTTCATTTGAGCTTTGAAGAATCAATTTTTG GAGGTCAGAGGGAGATTGAAGTTTCTTGTCTTCAGACATGTAATATTTGTGATGGTACAGGAGCTAAATCAAAGAGTTGC ATTAAACAATGCACAAATTGTGGTGGCAGAGGAGGAGAAATGAGAAGTCAAAAAACACCCTTTGGAATGATGTCTCAGGT TTCTACCTGCTCTAAGTGTGGGGGTCTTGGAAAGATAATCACCGATCACTGTCGAAAATGTGATGGCAGTGGTCAGTTAC AAGCTAAACGAACAATGGAAGTGGCCATTCCTCCTGGCCTCAACGATGGAGACACAATGCGAATTCGAGGAGAAGGGAAT TATGATAAGAATAGGCGTAAAACTGGGGATCTTTTTGTGGTCCTCCATGTAGATGCAAAGCAAGGAGTTTGGAGAGAGGG TCTTCATTTATACTCAAAGATTAACATTGACTTCACAGAGGCAATACTGGGGTCAGTTAAAAAGGTAGAAACTGTTGAAG GTTCTAGGGATCTCCAAATTCCCTCTGGGATTCAACCTGGAGATTCAGTTAAGATCTCACGCTTGGGAGTTCCAGACATG AATAAACCATCTATTCGAGGCGATCATTTTTTCATTGTGAATGTTCTTATTCCTAAGGATATCAGGTCTGTAGTTCTCTG A
Download CDS Sequence

Protein sequence (LotjaGi2g1v0194000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MMYQIPSSASSMSFTHTPPFSNASSPPSSSSTITFVTYARFSATTASMLQHRTASRFPFSATRNRPRAAVAAIRAKAETD FYSTLNVSSSATLQEIKSSYRKLARKYHPDMNKSPGAEDKFKEISAAYEVLSDDEKRSLYDRFGESGLQGENEGPASASG VDPFDLFEAFFGRSDGLFGDSDEGGFNFNMRNNRNRGQDIRYDLHLSFEESIFGGQREIEVSCLQTCNICDGTGAKSKSC IKQCTNCGGRGGEMRSQKTPFGMMSQVSTCSKCGGLGKIITDHCRKCDGSGQLQAKRTMEVAIPPGLNDGDTMRIRGEGN YDKNRRKTGDLFVVLHVDAKQGVWREGLHLYSKINIDFTEAILGSVKKVETVEGSRDLQIPSGIQPGDSVKISRLGVPDM NKPSIRGDHFFIVNVLIPKDIRSVVL
Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Merging data from EBeye. Please wait…

Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
MobiDBLite
mobidb-lite
1 30 30 -
SignalP_GRAM_POSITIVE
SignalP-TM
1 23 23 -
PANTHER
PTHR43096
35 422 388 9.2E-206
PANTHER
PTHR43096:SF26
35 422 388 9.2E-206
Gene3D
G3DSA:1.10.287.110
76 188 113 7.8E-33
IPR036869
SUPERFAMILY
SSF46565
77 185 109 1.44E-31
IPR036869
Hamap
MF_01152
77 424 348 30.327
IPR012724
SMART
SM00271
79 136 58 1.4E-29
IPR001623
CDD
cd06257
80 133 54 3.00073E-24
IPR001623
ProSiteProfiles
PS50076
80 144 65 22.883
IPR001623
Pfam
PF00226
80 141 62 1.7E-25
IPR001623
PRINTS
PR00625
82 100 19 1.8E-26
IPR001623
PRINTS
PR00625
100 115 16 1.8E-26
IPR001623
PRINTS
PR00625
116 136 21 1.8E-26
IPR001623
ProSitePatterns
PS00636
121 140 20 -
IPR018253
PRINTS
PR00625
136 155 20 1.8E-26
IPR001623
SUPERFAMILY
SSF49493
194 351 158 1.31E-15
IPR008971
Gene3D
G3DSA:2.60.260.20
197 333 137 4.2E-33
CDD
cd10747
198 421 224 6.87896E-41
Pfam
PF01556
200 418 219 6.6E-31
IPR002939
ProSiteProfiles
PS51188
214 296 83 21.607
IPR001305
SUPERFAMILY
SSF57938
214 294 81 2.75E-14
IPR036410
CDD
cd10719
227 291 65 3.3138E-24
IPR001305
Gene3D
G3DSA:2.10.230.10
227 291 65 4.2E-33
Pfam
PF00684
227 291 65 4.7E-11
IPR001305
Gene3D
G3DSA:2.60.260.20
344 424 81 2.0E-15
SUPERFAMILY
SSF49493
345 419 75 1.83E-14
IPR008971

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .

GO term Namespace Name Definition Relationships
GO:0005524
Molecular function ATP binding Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.
Subterm of
GO:0006457
Biological process Protein folding The process of assisting in the covalent and noncovalent assembly of single chain polypeptides or multisubunit complexes into the correct tertiary structure.
Subterm of
GO:0009408
Biological process Response to heat Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a heat stimulus, a temperature stimulus above the optimal temperature for that organism.
Subterm of
GO:0031072
Molecular function Heat shock protein binding Interacting selectively and non-covalently with a heat shock protein, any protein synthesized or activated in response to heat shock.
Subterm of
GO:0051082
Molecular function Unfolded protein binding Interacting selectively and non-covalently with an unfolded protein.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0194000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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