| Entry |
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| Symbol |
Tufm
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| Name |
(RefSeq) elongation factor Tu, mitochondrial
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| KO |
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| Organism |
asyl Apodemus sylvaticus (European woodmouse)
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| Brite |
KEGG Orthology (KO) [BR:asyl00001]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03012 Translation factors [BR:asyl03012]
127696564 (Tufm)
03029 Mitochondrial biogenesis [BR:asyl03029]
127696564 (Tufm)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:asyl04147]
127696564 (Tufm)
Translation factors [BR:asyl03012]
Eukaryotic type
Elongation factors
127696564 (Tufm)
Prokaryotic type
127696564 (Tufm)
Mitochondrial biogenesis [BR:asyl03029]
Mitochondrial DNA transcription, translation, and replication factors
Mitochondrial transcription and translation factors
Mitochondrial translation factors
127696564 (Tufm)
Exosome [BR:asyl04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
127696564 (Tufm)
Exosomal proteins of breast cancer cells
127696564 (Tufm)
Exosomal proteins of colorectal cancer cells
127696564 (Tufm)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
1:complement(79296059..79299393)
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| AA seq |
452 aa
MAAATLLRATPRLSGLCASPTPFLQGRLRPLKAPASPFLCRGLAVEAKKTYVRDKPHVNV
GTIGHVDHGKTTLTAAITKILAEGGGAKFKKYEEIDNAPEERARGITINAAHVEYSTAAR
HYAHTDCPGHADYVKNMITGTAPLDGCILVVAANDGPMPQTREHLLLAKQIGVEHVVVYV
NKADAVQDSEMVELVELEIRELLTEFGYKGEETPVIVGSALCALEQRDPELGVKSVQKLL
DAVDTYIPVPTRDLEKPFLLPVESVYSIPGRGTVVTGTLERGILKKGDECELLGHNKNIR
TVVTGIEMFHKSLERAEAGDNLGALVRGLKREDLRRGLVMVKPGSIQPHQKVEAQVYILS
KEEGGRHKPFVSHFMPVMFSLTWDMACRVILPPGKELAMPGEDLKLTLILRQPMILEKGQ
RFTLRDGNKTIGTGLVTDVPAMTEEDKNIKWS |
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| NT seq |
1359 nt +upstreamnt +downstreamnt
atggcggcagctactctattacgagcgacgccccgcctcagcggtctctgcgccagcccg
accccatttctgcaaggtcggctgcggccgctgaaggccccggcatcgcccttcttgtgt
cgcggcctagctgtggaggccaagaagacttacgttcgcgacaagccccatgtgaatgtg
gggactatcgggcatgtagaccatggcaagaccaccctgaccgcggccatcacaaaaatt
ctagccgagggaggtggagctaagttcaagaagtacgaggagatagacaatgccccagag
gagcgagctcggggtatcaccatcaatgcagctcatgtggagtatagcactgctgctcga
cactatgcccacacagactgccctggtcatgcagattatgttaagaacatgatcacaggc
actgcccctctggatggctgcatcctggtggtggctgctaacgatggccccatgccccag
acccgagagcacttactgctagctaaacagattggggtggagcatgttgtggtgtatgtg
aacaaggcagatgctgtccaggactcggagatggtggagttagtagagctggagatccga
gagctgctcaccgagtttggctataaaggagaggaaaccccagtcatcgtaggctctgct
ctctgtgcccttgagcaacgtgatcctgaactaggtgtgaagtcagtgcagaagcttcta
gacgctgtggacacttacatcccagtgcccacccgggacctggagaagcccttcctgctc
cctgtagagtcagtttactctattcctggccggggcacagtggtgacaggtacactagag
cgtggcattttgaagaaaggagatgagtgtgagttgctgggacataacaagaatatccgc
acggtagtgacaggcattgagatgttccacaagagcctggagagggctgaggcaggggat
aacctgggtgctctggtccgaggcttaaagcgtgaagatttgaggcgtggcttggtcatg
gtcaaaccaggctccatccaaccccaccagaaggtggaggcccaggtttatatcctcagc
aaggaggagggcggccgccacaaaccctttgtatctcatttcatgcctgtcatgttctcc
ctgacgtgggacatggcctgtcgggtcatcttgcctccagggaaggaacttgccatgcct
ggagaggacttgaagcttaccctaatcttgcggcagcccatgatcttagagaaaggccaa
cgtttcaccttgagggatggcaacaagaccattggcactggacttgtcacagacgtacca
gccatgaccgaggaggacaagaacatcaaatggagctga |
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