Summary

Gene Name	Spdl1
Specie	Rattus norvegicus
Full Name	spindle apparatus coiled-coil protein 1
Also known as	Ccdc99|RGD1306908
Coordinate	chr10:19628070-19652914
Strand	-
Gene summary	Predicted to enable enzyme binding activity and kinetochore binding activity. Predicted to be involved in several processes, including establishment of mitotic spindle orientation; mitotic metaphase plate congression; and protein localization to kinetochore. Predicted to be located in nucleus. Predicted to be part of outer kinetochore. Predicted to be active in spindle pole. Orthologous to human SPDL1 (spindle apparatus coiled-coil protein 1). [provided by Alliance of Genome Resources, Apr 2022]

Retrocopy(s) from Spdl1

Retroname	Coord	Strand	Genomic Region	ENSG
Spdl1P1	chr7:53871427-53871575	+	Intergenic	N/A	UCSC

Expression

Transcript Sequences

>NM_001034138.1

CAGACCCTCGGCCGAATGAAGAGGGTGGTATTTCTATGCTGAGGTAGATTTAGTGTCACGCGTCTGGGCGCCCAGTGCTCTCCGGACAGGCCTCCAGTTGCAGCAGCCAGGAAACGTGGGGAGAGTAGATTGAAAACAGAAAACATGGAGGCAGATATCACAAATCTTCGAAACAAGCTCAAAGAGTGTGAAGACGAGCGACTGAAAGCTGCACAGTATGGCCTACAGCTATTGGAGAGGCAGACGGAGTTGCAGAGTCAGCTGGATAAATGTCATGAAGAAATGATGACCACAGCTGAGAATTATAACCAAGAGAAGTATGCCCTTCAAAGAGAAGTAGAGCTCAAGAGTCGGATGTTGGAGAGTCTGAGCTGTGAGTGTGAGGCCCTGAGGCAGCAGCAGAAAGCGCAGCTGGAGCAGTTAGAAATGCAGCTGCACAGAAGCCACCGGCAGGAAGTGCACGGCCTGAGAAACAAGTTAGAGAATCTGAAAGTGGAATTAGACGAAGCAAGGCTTAGTGAGAAGCAGCTGAAGCAGAAGCTGGATCACCAGGGGGAGCTTCTCTCTCACAAGTCGGAAGAGCTCCGGCTGCTGTCTGAGCAACGGGCACTCAGCAGTGTGTCGTCAGAGCTGCTGTCTCTTCAGACCGAGCTGACCGAGGCAGAGGGTGTGAAGAACGCCCTCAGAGAAGAGGTGAACGAACTACAGTGCAAACAGGAGCAACTAGAATGTCTCAACGCTTCCTTACTGCACCAGGTAGACCGGCTTAAAGAAGAAAAGGAGGAGCGAGAGAAGGAGGCGGTCTCTTACTATAATGCCTTGGAGAAAGCTCGTGTAGAAAATCAGGATCTCCAGGTGCAGCTGGGCCATGCACTCCAGCAGGCGGCGGATCCCAACAGCAAAGGAAACTCTCTGTTCGCAGAGGTGGAGGATCGAAGGGTGGCAATGGAACGCCGGCTCAACCTGATGAAAGACAAATACCAGTCACTGAAGAAGCAAAATGCCTTCACCAGAGATCAGATGAACAAGATGAAGTTACAAATTTCCACGTTGCTGAGGATGAGGGGATCACAAACCGAATTTGAGCAGCAGGAACGGTTGTTCGCCATGTTAGAGCAGAAGAATGGTGAAATAAAACACCTTTTAGGGGAAATTAATAAACTGGAGAAATTTAAGAACTTATATGAAAATATGGAATCCAAGTCTTCCACATCAGACAGTGCTTGTGCTCTAGAAGACAGCACCTACTACACAGATTTGCTTCAGCTGAAGCTTGATAAACTAAACAAAGAAAATGAAAGCACGAAGGGTGAACTGTCCATCCAGAGGATGAAGGCATTATTTGAGAGCCAGCGGACCCTGGATATTGAACGGAAACTGTTTGCAAATGAAAGACACCTGCAGCTCTCAGAGAGTGAAAACCTGAAACTGAGAGCTAAGCTAGATGAACTCAAGCTGAAGTACGAGCCTGAAGAGAGAATTGAAGTACCTGTACTCAAAAGGAGGCGTGAGGTGCTGCCATTGAATATAAACACCCCAGAAGAAACAGCTGCTGCCAGTGCCACTGGGGAAGACGTTTCTAGACTTCCACTTGAGAGGAAGGAGGAGTCCTGTCTTGATAACTTAAAAGATAACACGGTGCAGTGGAAGCAGCCAGCCAGCCTCTCTCCTCATAAGAGCCTGCCTCTGGATACACAGCCGAAGAAGGAGAAGTGTGTGACGCTTGTGGCTAGTCCAGCCAGCACTGAGGTCCTACATGAACAAAGTGGGAACACCCCCAGTTCTCCCAGGTTAACTGAAGAATCAAGGCTTCCAACAAAAGTGAAGGAAAGAAAAGAAGCTACAAGCAAATTGGAAAAAGGAGCTTCTAAGAAATCACACACCATCATGTATGTGTCCTCGAAGTCAACCCCAGAGATGCAGTGCCCACAGCAGTAGTGAGGTGCTGCGTGGTGGCCTTGCTAATCGTCATTTCTATTGGTGGGACACCCTTGTGGAGCATTTGCATAAACCAGTGCTAAGACCTAGTATGTTCATGCCTCGGTGACCAAGAATTCAGATGTGGCTGTGATTGTGACCCAGAAGTTCCTTAAGTGATGATCCTGCTCAGAACTATGAATCACAGGGAACAGACCATCATCAGAAGAGAACGTTATAATTTAAACCTATTTGCTGTGTTGGATATGGAATTTGAATGTTATGTGATTAAATAATCTATCTTAAGAACCAAAAATTAAAAACTAGAACACTTAAAATTA