>gi|194378213|dbj|AK294699.1| Homo sapiens cDNA FLJ53865 complete cds, highly similar to Succinate semialdehyde dehydrogenase,mitochondrial precursor (EC 1.2.1.24)
GTGTGGCTCTGCAACCTTCCGCCAGCTCCCACGCTTTCCCCGCGCGTCCCCAGCGGCGCCGCTCTGGGCA
TGGTAGCCGACTGCGGGGTGCGAGAGGCCCGCGCCGCCGTGCGCGCTGCCTACGAGGCTTTCTGCCGCTG
GAGGGAGGTCTCCGCCAAGGAGAGGAGTTCATTACTTCGGAAGTGGTACAATTTAATGATACAAAATAAG
GATGACCTTGCCAGAATAATCACAGCTGAAAGTGGAAAGCCACTGAAGGAGGCACATGGAGAAATTCTCT
ATTCCGCCTTTTTCCTAGAGTGGTTCTCTGAGGAAGCCCGCCGTGTTTACGGAGACATTATCTACACCCC
GGCAAAGGACAGGCGGGCCCTGGTCCTCAAGCAGCCCATAGGCGTGGCTGCAGTCATCACCCCGTGGAAT
TTCCCCAGTGCCATGATCACCCGGAAGGTGGGGGCCGCCCTGGCAGCCGGCTGTACTGTCGTGGTGAAGC
CTGCCGAAGACACGCCCTTCTCCGCCCTGGCCCTGGCTGAGCTTGCAAGCCAGGCTGGGATTCCTTCAGG
TGTATACAATGTTATTCCCTGTTCTCGAAAGAATGCCAAGGAAGTAGGGGAGGCAATTTGTACTGATCCT
CTGGTGTCCAAAATTTCCTTTACTGGTTCAACAACTACAGGAAAGATCCTGTTGCACCACGCAGCAAACT
CTGTGAAAAGGGTCTCTATGGAGCTGGGCGGCCTTGCTCCATTTATAGTATTTGACAGTGCCAACGTGGA
CCAGGCTGTAGCAGGGGCCATGGCATCTAAATTTAGGAACACTGGACAGACTTGTGTTTGCTCAAACCAA
TTCTTGGTGCAAAGGGGCATCCATGATGCCTTTGTAAAAGCATTCGCCGAGGCCATGAAGAAGAACCTGC
GCGTAGGTAATGGATTTGAGGAAGGAACTACTCAGGGCCCATTAATTAATGAAAAAGCGGTAGAAAAGGT
GGAGAAACAGGTGAATGATGCCGTTTCTAAAGGTGCCACCGTTGTGACAGGTGGAAAACGACACCAACTT
GGAAAAAATTTCTTTGAGCCTACCCTGCTGTGCAATGTCACCCAGGACATGCTGTGCACTCATGAAGAGA
CTTTCGGGCCTCTGGCACCAGTTATCAAGTTCGATACAGAGGAGGAGGCTATAGCAATCGCTAACGCAGC
TGATGTTGGGTTAGCAGGTTATTTTTACTCTCAAGACCCAGCCCAGATCTGGAGAGTGGCAGAGCAGCTG
GAAGTGGGCATGGTTGGCGTCAACGAAGGATTAATTTCCTCTGTGGAGTGCCCTTTTGGTGGAGTGAAGC
AGTCCGGCCTTGGGCGAGAGGGGTCCAAGTATGGCATTGATGAGTATCTGGAACTCAAGTATGTGTGTTA
CGGGGGCTTGTAGGATTCTTTGGTTCTTTAAAAAAATTTAAAAGGAGACTTATCTACATATATAGGTACA
TGCCATCCATTATTTTAAATAAACTAATAGGTTTTCAGAATTATGAATTTTTCAGAACTCATCCAGTCCT
TGTAATCTTAAACAGATGCAAATCCTACCCCTGCCCTTAATGTAACTAGGGACCAATATGTGCCACGTGC
CTGTGGCTGCAGACTCCCAGAGAACCAGCACTGGGTTTACAGAATGAGGCCCTGGCTCCCCACCACAGCC
CCAGCTGCCTCAGAGCAGGCACAGCACAAGGCAGGCCCAGCCCCATGGGCCGTCACAAAGGCTTGATCAC
TGCCTGGGCAGTGGCACAACCATCCCCCATGTCGCTACAGAACATGGGCCCAGAGCACCTTGAAGGAGAC
CCTTGACTGTGACTGGCAGGCAGGTGAGGGGCACAGCACCCCTCCCCGGCATCTGCCAGCTCAGCACAGA
AGACACCGAATGTGCATCTGGAGGTGTTGCGGCAGAGGTTTGAGTGAACCCTCTTTC