Swine centromeric DNA repeats revealed by primed in situ (PRINS) labeling

被引：18

作者：

Rogel-Gaillard, C ^{[1
]}

Hayes, H

Coullin, P

Chardon, P

Vaiman, M

机构：

[1] INRA, CEA Radiobiol Appl, CRJ, Lab Mixte, F-78352 Jouy En Josas, France

[2] INRA, Lab Genet Biochim & Cytogenet, CRJ, F-78352 Jouy En Josas, France

[3] URA 1967 CNRS, Lab Cytogenet & Genet Oncol, Villejuif, France

[4] LRA, DRR, DSV, Lab Mixte,INRA,CEA Radiobiol Appl, Jouy En Josas, France

来源：

CYTOGENETICS AND CELL GENETICS | 1997年 / 79卷 / 1-2期

关键词：

D O I：

10.1159/000134687

中图分类号：

Q2 [细胞生物学];

学科分类号：

071009 ; 090102 ;

摘要：

In swine, distinct centromeric satellite DNA families have been described that correspond to either all the metacentric chromosomes except the Y (Mc1) or all the acrocentric chromosomes (Ac2). Using primed in situ (PRINS) labeling, we show here that primers derived from various sequences specifically label the centromeres of different subgroups of chromosomes. Among five primers derived from centromeric sequences of acrocentric chromosomes reported to be very homogeneous, four recognize all the acrocentric chromosomes, whereas one labels prominently chromosome 17. For the metacentric chromosomes, six primers have been derived from several divergent sequences. Among these primers, two recognize all the metacentric chromosomes except 5, 10, and 12. Three other primers label small subsets of metacentric chromosomes, including the X and one or two additional chromosomes. The last primer is specific to chromosome 1. These preliminary results suggest that it should be possible to define specific primers for almost every swine chromosome. Already, some of the primers reported here permit a distinction between swine chromosomes difficult to differentiate without banding, such as the X chromosome and chromosome 9. Therefore, the PRINS technique using centromeric motifs constitutes an additional tool for cytogenetic studies in swine.

引用

页码：79 / 84

页数：6

共 19 条

[1] The chromosomal distribution and organization of sheep satellite I and II centromeric DNA using characterized sheep-hamster somatic cell hybrids [J].

Burkin, DJ ;

Broad, TE ;

Jones, C .

CHROMOSOME RESEARCH, 1996, 4 (01) :49-55

[2]

Coullin P, 1997, ANN GENET-PARIS, V40, P18

[3] OLIGONUCLEOTIDE-PRIMED INSITU DNA-SYNTHESIS (PRINS) - A METHOD FOR CHROMOSOME MAPPING, BANDING, AND INVESTIGATION OF SEQUENCE ORGANIZATION [J].

GOSDEN, J ;

HANRATTY, D ;

STARLING, J ;

FANTES, J ;

MITCHELL, A ;

PORTEOUS, D .

CYTOGENETICS AND CELL GENETICS, 1991, 57 (2-3) :100-104

[4] STANDARD KARYOTYPE OF THE DOMESTIC PIG [J].

GUSTAVSSON, I .

HEREDITAS, 1988, 109 (02) :151-157

[5] COMPARISON OF RBG-BANDED KARYOTYPES OF CATTLE, SHEEP, AND GOATS [J].

HAYES, H ;

PETIT, E ;

DUTRILLAUX, B .

CYTOGENETICS AND CELL GENETICS, 1991, 57 (01) :51-55

[6] MACROMOLECULAR ORGANIZATION OF HUMAN CENTROMERIC REGIONS REVEALS HIGH-FREQUENCY, POLYMORPHIC MACRO DNA REPEATS [J].

JABS, EW ;

GOBLE, CA ;

CUTTING, GR .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1989, 86 (01) :202-206

[7] MEIOTIC CHROMOSOME BEHAVIOR REFLECTS LEVELS OF SEQUENCE DIVERGENCE IN SUS-SCROFA-DOMESTICA SATELLITE DNA [J].

JANTSCH, M ;

HAMILTON, B ;

MAYR, B ;

SCHWEIZER, D .

CHROMOSOMA, 1990, 99 (05) :330-335

[8] CONSTRUCTION OF A PANEL OF CHROMOSOME-SPECIFIC OLIGONUCLEOTIDE PROBES (PRINS-PRIMERS) USEFUL FOR THE IDENTIFICATION OF INDIVIDUAL HUMAN-CHROMOSOMES IN-SITU [J].

KOCH, J ;

HINDKJAER, J ;

KOLVRAA, S ;

BOLUND, L .

CYTOGENETICS AND CELL GENETICS, 1995, 71 (02) :142-147

[9] OLIGONUCLEOTIDE-PRIMING METHODS FOR THE CHROMOSOME-SPECIFIC LABELING OF ALPHA-SATELLITE DNA INSITU [J].

KOCH, JE ;

KOLVRAA, S ;

PETERSEN, KB ;

GREGERSEN, N ;

BOLUND, L .

CHROMOSOMA, 1989, 98 (04) :259-265

[10] A SIMPLE METHOD FOR SIMULTANEOUS R-BANDING OR G-BANDING AND FLUORESCENCE INSITU HYBRIDIZATION OF SMALL SINGLE-COPY GENES [J].

LEMIEUX, N ;

DUTRILLAUX, B ;

VIEGASPEQUIGNOT, E .

CYTOGENETICS AND CELL GENETICS, 1992, 59 (04) :311-312

← 1 2 →