Summary

Gene Name	Gltp
Specie	Rattus norvegicus
Full Name	glycolipid transfer protein
Also known as	RGD1564442
Coordinate	chr12:47667556-47687708
Strand	+
Gene summary	Predicted to enable several functions, including ceramide 1-phosphate binding activity; ceramide 1-phosphate transfer activity; and identical protein binding activity. Predicted to be involved in ceramide transport and intermembrane lipid transfer. Predicted to be active in cytosol. Orthologous to human GLTP (glycolipid transfer protein). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Gltp

Retroname	Coord	Strand	Genomic Region	ENSG
GltpP1	chr7:72699095-72700052	+	Intergenic	N/A	UCSC

Expression

Transcript Sequences

>NM_001134413.1

CGACAGCCCGGGCGCGGACGCCCTCGGCGCGGGCTGGGGCATCACCAAGGGCCTCGACCCCGAAATGGCGCTGCTGGCCGAGCACCTGCTCAAGCCGCTACCCGCAGACCGGCAGATCGAGACCGGGCCCTTCTTGGAGGCGGTGGCCCACCTGCCGCCCTTCTTCGATTGCCTTGGGTCCCCGGTGTTCACGCCCATCAAGGCAGACATAAGCGGTAACATCACCAAAATCAAAGCCGTCTATGACACTGACCCGGCCAAGTTCAAGACTCTGCAGAACATCCTGGAGGTGGAGAAGGGGATGTATGGGGCGGAGTGGCCCAAAGTGGGGGCCACGCTGGCACTGCTGTGGCTGAAAAGGGGCCTGCGCTTCATCCAGGTGTTCCTGCAGAGCATCTGCGATGGCGAACGGGACGAGAACCACCCCAACCTCATCCGGGTAAACGCCAACAAGGCCTATGAGATGGCGCTAAAGAAGTATCACGGCTGGCTGGTGCAGAAGATCTTCAAGGCCGCACTGTATGCAGCACCATACAAGTCTGACTTCCTAAAGGCGCTCTCCAAGGGGCAGAACGTGACGGAGGAGGAGTGCCTGGAGAAGATCCGCCTCTTCCTGGTCAACTACACGGCCACCATCGACGCCATCTATGAAATGTATACCAAGATGAACGCGGAGCTTGACTACACCGTGTAGGCGCCCAGACACACAGCCCCACGTGGACACACAGCCCACATGGACACACAGCCCACGTGGACACACAGCCCCACGTGGGCACAAGCAGCCCCATCACTGTGAAACAAGCTGGGATCCCCAGCTCAGCCTGGCCCGCCTGGCCAGCGTGGGTCTGCAGGGGGCGGCCTTAGCTTGTTAGAGGTCTTTTGTTTTCTTGTTTTTGTTATCTTGGCCTTTTCTAATGGAGCAATAAACACCCTCCACTCACTCCAGCTTCCCCAGCAGCTCAGGCTGAACCAACCTCCTTCCAGTGTGGTTAAAACCAATTAACTTTGCTAACGATGAATTCCTAGGGTTTTGTCTTTCCCTCCCCTACCTAGCTCAGGAGGAGCCCAACTCAGGGGAGACATACACCTCACCCAGCAAAGAAGCCAGGTCCATCCGGCCCAAGGGTGTCTTGGATGTTTGAAGGACAATGGAGGCGGATGGGAAATTCAGCAGGGCCCAACTGTGGTGTCTGTTTAAAAGGCGAGCTGACAGGGTCCTCACGGGGCTGCACATCTGGCATTACCAGCCCTGTTCTCTCTCTCCCTCTGTCTTGTCAGACAGGTTTTTTTGTTTCTCCTGAATTGTTACCAGCCTTTCAAATGACCGCCTAGGCACACACAGGCGACCGTCCGTGACTGAACTCGCATTCTTCTGCATAATGCTTTCTTCCTCAGGGTTGGCTCTTCCAACCCAAGAAACTGCCTGTCACGGGGCCCTCCAGCTGCGGAGACCCAAGAAACTGCCTTGCTGCCTTAAACCGTCCTTCAGGAGCTAAAAGAGCTATATTTTTTTTAAAGTATCGGGGTTAAACACATCCTGAAAGAATTGATGTATGTTAAAAAAAAAAAAAACCCAATGAGGAACAATTGGTGATTTTTATGCAGAAACTAAATAATCCTTAATAAATAAATCTATATTTTGAAATCACA