Structure of the human CCG1 gene: relationship between the exons/introns and functional domain/modules of the protein

Nakashima Torahiko; Sekiguchi Takeshi; Sunamoto Hidetoshi; Yura Kei; Tomoda Shirou; Go Mitiko; Kere Juha; Schlessinger David; Nishimoto Takeharu

doi:10.1016/0378-1119(94)90570-3

Structure of the human CCG1 gene: relationship between the exons/introns and functional domain/modules of the protein

Nakashima Torahiko, Sekiguchi Takeshi, Sunamoto Hidetoshi, Yura Kei, Tomoda Shirou, Go Mitiko, Kere Juha, Schlessinger David, Nishimoto Takeharu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

The human CCG1 gene, encoding CCGl/TAF_II250/p250, was isolated by complementing tsBN462, a mutant BHK21 cell line that shows cell-cycle arrest at high temperature. Using the cDNA as a probe, the locations of exon-intron junctions were determined in the genomic DNA. Thirty-eight exons ranging from 68 to 219 bp in size were found. All the exonintron junctions followed the GT-AG rule. Using a newly developed method, we performed a module analysis of the CCG1 protein. The functional domain previously predicted in CCG1 was further confirmed to be encoded in a single predicted module that is the minimal functional unit in the protein. The boundaries of the predicted modules show a close correlation to the intron/exon junction of CCG1. The entire gene, at least 110kb long, has been recovered in a YAC, which provides a route to the further study of module function.

Original language	English
Pages (from-to)	193-200
Number of pages	8
Journal	Gene
Volume	141
Issue number	2
DOIs	https://doi.org/10.1016/0378-1119(94)90570-3
Publication status	Published - 1994 Apr 20
Externally published	Yes

Keywords

Cell cycle
TAF250
tsBN462 cells

ASJC Scopus subject areas

Genetics

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10.1016/0378-1119(94)90570-3

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title = "Structure of the human CCG1 gene: relationship between the exons/introns and functional domain/modules of the protein",

abstract = "The human CCG1 gene, encoding CCGl/TAFII250/p250, was isolated by complementing tsBN462, a mutant BHK21 cell line that shows cell-cycle arrest at high temperature. Using the cDNA as a probe, the locations of exon-intron junctions were determined in the genomic DNA. Thirty-eight exons ranging from 68 to 219 bp in size were found. All the exonintron junctions followed the GT-AG rule. Using a newly developed method, we performed a module analysis of the CCG1 protein. The functional domain previously predicted in CCG1 was further confirmed to be encoded in a single predicted module that is the minimal functional unit in the protein. The boundaries of the predicted modules show a close correlation to the intron/exon junction of CCG1. The entire gene, at least 110kb long, has been recovered in a YAC, which provides a route to the further study of module function.",

keywords = "Cell cycle, TAF250, tsBN462 cells",

author = "Nakashima Torahiko and Sekiguchi Takeshi and Sunamoto Hidetoshi and Yura Kei and Tomoda Shirou and Go Mitiko and Kere Juha and Schlessinger David and Nishimoto Takeharu",

year = "1994",

month = apr,

day = "20",

doi = "10.1016/0378-1119(94)90570-3",

language = "English",

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pages = "193--200",

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T1 - Structure of the human CCG1 gene

T2 - relationship between the exons/introns and functional domain/modules of the protein

AU - Torahiko, Nakashima

AU - Takeshi, Sekiguchi

AU - Hidetoshi, Sunamoto

AU - Kei, Yura

AU - Shirou, Tomoda

AU - Mitiko, Go

AU - Juha, Kere

AU - David, Schlessinger

AU - Takeharu, Nishimoto

PY - 1994/4/20

Y1 - 1994/4/20

N2 - The human CCG1 gene, encoding CCGl/TAFII250/p250, was isolated by complementing tsBN462, a mutant BHK21 cell line that shows cell-cycle arrest at high temperature. Using the cDNA as a probe, the locations of exon-intron junctions were determined in the genomic DNA. Thirty-eight exons ranging from 68 to 219 bp in size were found. All the exonintron junctions followed the GT-AG rule. Using a newly developed method, we performed a module analysis of the CCG1 protein. The functional domain previously predicted in CCG1 was further confirmed to be encoded in a single predicted module that is the minimal functional unit in the protein. The boundaries of the predicted modules show a close correlation to the intron/exon junction of CCG1. The entire gene, at least 110kb long, has been recovered in a YAC, which provides a route to the further study of module function.

AB - The human CCG1 gene, encoding CCGl/TAFII250/p250, was isolated by complementing tsBN462, a mutant BHK21 cell line that shows cell-cycle arrest at high temperature. Using the cDNA as a probe, the locations of exon-intron junctions were determined in the genomic DNA. Thirty-eight exons ranging from 68 to 219 bp in size were found. All the exonintron junctions followed the GT-AG rule. Using a newly developed method, we performed a module analysis of the CCG1 protein. The functional domain previously predicted in CCG1 was further confirmed to be encoded in a single predicted module that is the minimal functional unit in the protein. The boundaries of the predicted modules show a close correlation to the intron/exon junction of CCG1. The entire gene, at least 110kb long, has been recovered in a YAC, which provides a route to the further study of module function.

KW - Cell cycle

KW - TAF250

KW - tsBN462 cells

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DO - 10.1016/0378-1119(94)90570-3

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AN - SCOPUS:0028221721

SN - 0378-1119

VL - 141

SP - 193

EP - 200

JO - Gene

JF - Gene

IS - 2

ER -

Structure of the human CCG1 gene: relationship between the exons/introns and functional domain/modules of the protein

Abstract

Keywords

ASJC Scopus subject areas

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