RCPedia: Genes

Summary

Gene Name	TDG	Plot displaying the genomic locations of a parental gene (in chr12) and its retrocopy(ies). Each line represents a retrocopy.
Specie	Homo sapiens
Full Name	thymine DNA glycosylase
Also known as	hTDG
Coordinate	chr12:103965842-103988874
Strand	+
Gene summary	The protein encoded by this gene belongs to the TDG/mug DNA glycosylase family. Thymine-DNA glycosylase (TDG) removes thymine moieties from G/T mismatches by hydrolyzing the carbon-nitrogen bond between the sugar-phosphate backbone of DNA and the mispaired thymine. With lower activity, this enzyme also removes thymine from C/T and T/T mispairings. TDG can also remove uracil and 5-bromouracil from mispairings with guanine. This enzyme plays a central role in cellular defense against genetic mutation caused by the spontaneous deamination of 5-methylcytosine and cytosine. This gene may have a pseudogene in the p arm of chromosome 12. [provided by RefSeq, Jul 2008]

Retrocopy(s) from TDG

Retroname	Coord	Strand	Genomic Region	ENSG
TDGP1	chr12:25803192-25806259	+	Intergenic	ENSG00000255725	UCSC

Expression

Transcript Sequences

>NM_003211.6
AGAAGCCTGGAGGAGGAGCTTGAGTCCAGCCACTGTCTGGGTACTGCCAGCCATCGGGCCCAGGTCTCTGGGGTTGTCTTACCGCAGTGAGTACCACGCGGTACTACAGAGACCGGCTGCCCGTGTGCCCGGCAGGTGGAGCCGCCCGCATCAGCGGCCTCGGGGAATGGAAGCGGAGAACGCGGGCAGCTATTCCCTTCAGCAAGCTCAAGCTTTTTATACGTTTCCATTTCAACAACTGATGGCTGAAGCTCCTAATATGGCAGTTGTGAATGAACAGCAAATGCCAGAAGAAGTTCCAGCCCCAGCTCCTGCTCAGGAACCAGTGCAAGAGGCTCCAAAAGGAAGAAAAAGAAAACCCAGAACAACAGAACCAAAACAACCAGTGGAACCCAAAAAACCTGTTGAGTCAAAAAAATCTGGCAAGTCTGCAAAATCAAAAGAAAAACAAGAAAAAATTACAGACACATTTAAAGTAAAAAGAAAAGTAGACCGTTTTAATGGTGTTTCAGAAGCTGAACTTCTGACCAAGACTCTCCCCGATATTTTGACCTTCAATCTGGACATTGTCATTATTGGCATAAACCCGGGACTAATGGCTGCTTACAAAGGGCATCATTACCCTGGACCTGGAAACCATTTTTGGAAGTGTTTGTTTATGTCAGGGCTCAGTGAGGTCCAGCTGAACCATATGGATGATCACACTCTACCAGGGAAGTATGGTATTGGATTTACCAACATGGTGGAAAGGACCACGCCCGGCAGCAAAGATCTCTCCAGTAAAGAATTTCGTGAAGGAGGACGTATTCTAGTACAGAAATTACAGAAATATCAGCCACGAATAGCAGTGTTTAATGGAAAATGTATTTATGAAATTTTTAGTAAAGAAGTTTTTGGAGTAAAGGTTAAGAACTTGGAATTTGGGCTTCAGCCCCATAAGATTCCAGACACAGAAACTCTCTGCTATGTTATGCCATCATCCAGTGCAAGATGTGCTCAGTTTCCTCGAGCCCAAGACAAAGTTCATTACTACATAAAACTGAAGGACTTAAGAGATCAGTTGAAAGGCATTGAACGAAATATGGACGTTCAAGAGGTGCAATATACATTTGACCTACAGCTTGCCCAAGAGGATGCAAAGAAGATGGCTGTTAAGGAAGAAAAATATGATCCAGGTTATGAGGCAGCATATGGTGGTGCTTACGGAGAAAATCCATGCAGCAGTGAACCTTGTGGCTTCTCTTCAAATGGGCTAATTGAGAGCGTGGAGTTAAGAGGAGAATCAGCTTTCAGTGGCATTCCTAATGGGCAGTGGATGACCCAGTCATTTACAGACCAAATTCCTTCCTTTAGTAATCACTGTGGAACACAAGAACAGGAAGAAGAAAGCCATGCTTAAGAATGGTGCTTCTCAGCTCTGCTTAAATGCTGCAGTTTTAATGCAGTTGTCAACAAGTAGAACCTCAGTTTGCTAACTGAAGTGTTTTATTAGTATTTTACTCTAGTGGTGTAATTGTAATGTAGAACAGTTGTGTGGTAGTGTGAACCGTATGAACCTAAGTAGTTTGGAAGAAAAAGTAGGGTTTTTGTATACTAGCTTTTGTATTTGAATTAATTATCATTCCAGCTTTTTATATACTATATTTCATTTATGAAGAAATTGATTTTCTTTTGGGAGTCACTTTTAATCTGTAATTTTAAAATACAAGTCTGAATATTTATAGTTGATTCTTAACTGCATAAACCTAGATATACCATTATCCCTTTTATACCTAAGAAGGGCATGCTAATAATTACCACTGTCAAAGAGGCAAAGGTGTTGATTTTTGTATATGAAGTTAAGCCTCAGTGGAGTCTCATTTGTTAGTTTTTAGTGGTAACTAAGGGTAAACTCAGGGTTCCCTGAGCTATATGCACACTCAGACCTCTTTGCTTTACCAGTGGTGTTTGTGAGTTGCTCAGTAGTAAAAACTGGCCCTTACCTGACAGAGCCCTGGCTTTGACCTGCTCAGCCCTGTGTGTTAATCCTCTAGTAGCCAATTAACTACTCTGGGGTGGCAGGTTCCAGAGAATGCAGTAGACCTTTTGCCACTCATCTGTGTTTTACTTGAGACATGTAAATATGATAGGGAAGGAACTGAATTTCTCCATTCATATTTATAACCATTCTAGTTTTATCTTCCTTGGCTTTAAGAGTGTGCCATGGAAAGTGATAAGAAATGAACTTCTAGGCTAAGCAAAAAGATGCTGGAGATATTTGATACTCTCATTTAAACTGGTGCTTTATGTACATGAGATGTACTAAAATAAGTAATATAGAATTTTTCTTGCTAGGTAAATCCAGTAAGCCAATAATTTTAAAGATTCTTTATCTGCATCATTGCTGTTTGTTACTATAAATTAAATGAACCTCATGGAAAGGTTGAGGTGTATACCTTTGTGATTTTCTAATGAGTTTTCCATGGTGCTACAAATAATCCAGACTACCAGGTCTGGTAGATATTAAAGCTGGGTACTAAGAAATGTTATTTGCATCCTCTCAGTTACTCCTGAATATTCTGATTTCATACGTACCCAGGGAGCATGCTGTTTTGTCAATCAATATAAAATATTTATGAGGTCTCCCCCACCCCCAGGAGGTTATATGATTGCTCTTCTCTTTATAATAAGAGAAACAAATTCTTATTGTGAATCTTAACATGCTTTTTAGCTGTGGCTATGATGGATTTTATTTTTTCCTAGGTCAAGCTGTGTAAAAGTCATTTATGTTATTTAAATGATGTACTGTACTGCTGTTTACATGGACGTTTTGTGCGGGTGCTTTGAAGTGCCTTGCATCAGGGATTAGGAGCAATTAAATTATTTTTTCACGGGACTGTGTAAAGCATGTAACTAGGTATTGCTTTGGTATATAACTATTGTAGCTTTACAAGAGATTGTTTTATTTGAATGGGGAAAATACCCTTTAAATTATGACGGACATCCACTAGAGATGGGTTTGAGGATTTTCCAAGCGTGTAATAATGATGTTTTTCCTAACATGACAGATGAGTAGTAAATGTTGATATATCCTATACATGACAGTGTGAGACTTTTTCATTAAATAATATTGAAAGATTTTAAAATTCATTTGAAAGTCTGATGGCTTTTACAATAAAAGATATTAAGAATTGTTATCCTTAA