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Gene information | Literature | Expression | lncRNA | Mutation | Homolog

Basic Information

Gene ID

1936

Name

EEF1D

Synonym

EF-1D|EF1D|FP1047;eukaryotic translation elongation factor 1 delta (guanine nucleotide exchange protein);EEF1D;eukaryotic translation elongation factor 1 delta (guanine nucleotide exchange protein)

Definition

EF-1-delta|antigen NY-CO-4|elongation factor 1-delta|guanine nucleotide exchange protein

Position

8q24.3

Gene Type

protein-coding

Pathways and Diseases

Pathway

Metabolism of proteins;Reactome;REACT:17015

Pathway

Gene Expression;Reactome;REACT:71

Pathway

Eukaryotic Translation Elongation;PID Reactome;500527

Disease

Brain tumor;FunDO

Disease

Metastasis to lymph nodes;FunDO

Disease

Breast cancer;FunDO

Disease

Esophagus cancer;FunDO

External Links

Links to cell senescence gene database

1936

Links to epithelial mesenchymal transition gene database

1936

Links to ovarian cancer gene database

1936

Links to endometrial cancer gene database

1936

Links to iHOP

1936

Sequence Information

Nucleotide Sequence

>1936 : length: 3696
AGGACAGGCTGGCGTTTCCCAGTGGGGCTGGAATATCCAGGGGTCAGACAGGAAAGTGGC
TGAGTGGGAATGTGGAACTGTGGAGTTTTTTCTCTTAAAAAGACCAAAGGCGGCTGGGCG
TGGTGGCTCATGCTGGTGATCCCAGCACTTTGGGAGGCCGAGGCAGGCAGATCATGAGGT
CAGGATATCGAGACCATCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACGAA
AATTAGGCTGGGCGCATGGCTCATGTCTGTAATCCCAGCACTGTGGGAGGCCAAGGCAGG
CAGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCAAACATGGTGAAACCCCATCTC
TACTAAAAATATGAAAAAATAGCCAGGTGTGGTGGCACACGCCTGTAATCCCAGCTACTT
GGGAGGCTGAGGTAGGAGAATTGCTTGGACCCGGGAGGTGGAAGTTGCAGTGAGCTGAGA
TCGTACCACTGCACTCCAGCCTGGTGACAGAGTGAGGCTCCGTCTCAAAAAAAACCCAAA
AATTAGCTGGCCGTGGTTGCGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGG
AGAATCGCTTGAACCGGGGAGTTGGAGGTTGCAGTGAGCCAAGATCGCGCCACTGCACTC
CAGCCTGGGTGACAGAGTGAGACTCCGTCTCAAAAAAAGACCGAAGGCCTCACTCCACGC
AGGAAGACATTGATCTGTCCTGTGGCTGCTCTGCCGTGCGGTGGTTTTGCCTAAAGACCC
GCTTCCTCAGGGGCTCCAGCCTCTTTTAAGGGCTAGTCGTCGCGCCCTTTGGGCACTGAA
GGTACTGAAAGTTCTATCAGGCAGTGCCAGTCCACAGACTCAGGCCAGCCAGGTGGGCCG
GAGAGGGGTGCTGCTGGGAGGGGTGGGCGTGCACAGGCTGAGCCGGTGGCTGACCCCGTC
CCCTGCCCACCTCCCTGACTTCTCCCTGTGGAGGGTGGACAATCTGGGAGCCTGTCTGTG
TGTGCGACTGTGATGGGGTGGCGTGGAGGGCAGGGCCTGGGAGCCAGCTCCTCCCAGAAA
GCTTCCGTTTGCCCAGATGTGTGGAGACCTCCAGGCCGTGCAGCACCTTGGTGGCCACAG
CTCTCCAGGATGTCCTCACCTTCCTCAGGGCCCTGCCCTCCTGACCTGGAGTGTTCTGGA
AAGCTCCTCCTGAGCTTGGATAAACTGCAGGAGCGAAGGGGCTGACCGTTTGTCGGGACG
CAGTTGAAAGAGTCGCTGTGTCCTGCTCCGGGCTCTCCTGCTGGAGAGGAGAGGCTTGCA
CGTGCCTGTCGTCTGCGCAAGCTTTGAAGCTCAGACTTGGTCTCTGTTAGGAGAGATGGG
GATGACGGAGTGACGTCACCTGTGTGGACTCAGCTGCCACCTGGGATTGTGGTGGCGGCG
GGTCTGTCTGGCGCTCAGCTTCCATCTCCACCAGTGTCACCTCCACACCACCTCGCCAAG
CAGCTTCTGGAAAGGCCCCCGGCCGCCCCGGGCTGACCTGCTGCTGTGTCTGACCCGTAG
AGACAGGGTTTCAACGTGTTAGCCAGGATGGTCTCAGTCTCCAGACCCTGTGATCCGCCC
GCCTCGGCCTCCCAAAGTGTTGGGATTACAGGTGTGAGCCACCGTGCCTGGCCGAGGCTC
CTTCTTTTATGAGGAGCGGGAAGGCCTCCTGCACCCTGGAGACCGTGTGGGAAGACAAGC
ACAAGTATGAGGAGGCCGAGCGGCGCTTCTACGAACACGAGGCCACACAGGCGGCCGCCT
CCGCCCAGCAGCTGCCAGCCGAGGGGCCAGCCATGAATGGGCCCGGCCAGGACGACCCTG
AGGACGCTGATGAGGCGGAAGCCCCTGACGGCGGCAGCAGGCGTGATCCCAGGAAGAGCC
AGGACAGCAGGAAGCCCCTGCAGAAAAAGAGGAAGCGCTCCCCCAAGAGCGGGCTCGGCC
CCGCGGACCTGGCCCTCCTGGGCCTCTCGGCCGAACGCGTGTGGCTGGACAAGTCACTTT
TCGACCAGGCAGAGAGCTCCTACCGCCAGAAGCTGGCAGATGTGGCTGCCCAGGCAGCCT
GGCCTCCTGCCTTGGCCCCTTGGGGTCTCTGCACCCATGGAAACCAGGTGGCCTGCCACC
ACGTGACCTGGGGGATCTGGGTCAACAAGTCCTCCTTCGACCAGGCTGAGCGGGCCTTCG
TGGAGTGGTCTCAGGCCCTGTTGCTGGCCCCCGACGGCAGCCGCAGGCAGGGGACTCCCA
ACACAGGCCAGCAGGTGGCCGTCCCCGACCTGGCCCACCAGCCCAGCCCACCGGTCAATG
GCCAGCCCCCGCTGGGCAGCCTGCAGGCACTGGTTCGGGAGGTGTGGCTGGAGAAGCCCC
GGTATGATGCAGCCGAGAGGGGCTTCTACGAGGCCCTGTTTGACGGCCATCCCCCAGGGA
AGGTGCGCCTGCAAGAGCGAGCCGGCCTGGCCGAGGGTGCCCGGCGGGGCCGCAGAGACC
GGCGGGGCCGCAACATCTTAGGGAACAAGCGGGCCGGGCTGCGACGGGCCGATGGGGAGG
CCCCCTCTGCCTTGCCCTACTGTTACTTCCTGCAGAAGGATGCAGAGGCCCCCTGGCTCA
GCAAGCCTGCCTACGACAGCGCCGAGTGCCGCCACCACGCTGCCGAGGCCCTGCGGGTGG
CCTGGTGCCTCGAAGCTGCCTCCCTGTCTCACCGACCCGGTCCTCGGTCTGGCCTGTCCG
TGTCCAGCCTGAGACCCAACAGAAAAATGGCTACAAACTTCCTAGCACATGAGAAGATCT
GGTTCGACAAGTTCAAATATGACGACGCAGAAAGGAGATTCTACGAGCAGATGAACGGGC
CTGTGGCAGGTGCCTCCCGCCAGGAGAACGGCGCCAGCGTGATCCTCCGTGACATTGCGA
GAGCCAGAGAGAACATCCAGAAATCCCTGGCTGGAAGCTCAGGCCCCGGGGCCTCCAGCG
GCACCAGCGGAGACCACGGTGAGCTCGTCGTCCGGATTGCCAGTCTGGAAGTGGAGAACC
AGAGTCTGCGTGGCGTGGTACAGGAGCTGCAGCAGGCCATCTCCAAGCTGGAGGCCCGGC
TGAACGTGCTGGAGAAGAGCTCGCCTGGCCACCGGGCCACGGCCCCACAGACCCAGCACG
TATCTCCCATGCGCCAAGTGGAGCCCCCAGCCAAGAAGCCAGCCACACCAGCAGAGGATG
ACGAGGATGATGACATTGACCTGTTTGGCAGTGACAATGAGGAGGAGGACAAGGAGGCGG
CACAGCTGCGGGAGGAGCGGCTACGGCAGTACGCGGAGAAGAAGGCCAAGAAGCCTGCAC
TGGTGGCCAAGTCCTCCATCCTGCTGGATGTCAAGCCTTGGGATGATGAGACGGACATGG
CCCAGCTGGAGGCCTGTGTGCGCTCTATCCAGCTGGACGGGCTGGTCTGGGGGGCTTCCA
AGCTGGTGCCCGTGGGCTACGGTATCCGGAAGCTACAGATTCAGTGTGTGGTGGAGGACG
ACAAGGTGGGGACAGACTTGCTGGAGGAGGAGATCACCAAGTTTGAGGAGCACGTGCAGA
GTGTCGATATCGCAGCTTTCAACAAGATCTGAAGCCTGAGTGTGTGTACGTGCGCGCGTG
CGTGAGGCCCTGCCACGATTAAAGACTGAGACCGGC

Protein Sequence

>1936 : length: 688
MGAERLVGVPPHDVTMPCLLGSCSHPTPNPQPLPLPISLALMRSGKASCTLETVWEDKHK
YEEAERRFYEHEATQAAASAQQLPAEGPAMNGPGQDDPEDADEAEAPDGGSRRDPRKSQD
SRKPLQKKRKRSPKSGLGPADLALLGLSAERVWLDKSLFDQAESSYRQKLADVAAQAAWP
PALAPWGLCTHGNQVACHHVTWGIWVNKSSFDQAERAFVEWSQALLLAPDGSRRQGTPNT
GQQVAVPDLAHQPSPPVNGQPPLGSLQALVREVWLEKPRYDAAERGFYEALFDGHPPGKV
RLQERAGLAEGARRGRRDRRGRNILGNKRAGLRRADGEAPSALPYCYFLQKDAEAPWLSK
PAYDSAECRHHAAEALRVAWCLEAASLSHRPGPRSGLSVSSLRPNRKMATNFLAHEKIWF
DKFKYDDAERRFYEQMNGPVAGASRQENGASVILRDIARARENIQKSLAGSSGPGASSGT
SGDHGELVVRIASLEVENQSLRGVVQELQQAISKLEARLNVLEKSSPGHRATAPQTQHVS
PMRQVEPPAKKPATPAEDDEDDDIDLFGSDNEEEDKEAAQLREERLRQYAEKKAKKPALV
AKSSILLDVKPWDDETDMAQLEACVRSIQLDGLVWGASKLVPVGYGIRKLQIQCVVEDDK
VGTDLLEEEITKFEEHVQSVDIAAFNKI