Preparation of tomato meiotic pachytene and mitotic metaphase chromosomes suitable for fluorescence in situ hybridization (FISH)

被引：149

作者：

Zhong, XB

deJong, JH

Zabel, P

机构：

[1] AGR UNIV WAGENINGEN,DEPT MOLEC BIOL,6703 HA WAGENINGEN,NETHERLANDS

[2] AGR UNIV WAGENINGEN,DEPT GENET,6703 HA WAGENINGEN,NETHERLANDS

来源：

CHROMOSOME RESEARCH | 1996年 / 4卷 / 01期

关键词：

fluorescence in situ hybridization; pachytene; metaphase; repetitive sequences; tomato;

D O I：

10.1007/BF02254940

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Fluorescence in site hybridization (FISH) is an increasingly powerful tool with a variety of applications in both basic and applied research. With excellent genetic, cytogenetic and molecular maps available, the tomato genome provides a good model to benefit from the full potential of FISH. Tomato chromosomes at mitotic metaphase are small and not particularly suitable for high-resolution FISH. In contrast, chromosomes at meiotic pachytene are about 15 times longer, and easier to identify by their differences in chromosome arm lengths and chromomere pattern. We have developed a technique for preparing chromosomal spreads of young pollen mother cells at mid-prophase I which is suitable for FISH. In a first series of experiments, the hybridization patterns of three classes of repetitive DNA sequences were studied in single and multicolour FISH.

引用

收藏

页码：24 / 28

页数：5

相关论文

共 31 条

[11] PHYSICAL MAPPING OF PLANT DNA-SEQUENCES BY SIMULTANEOUS INSITU HYBRIDIZATION OF 2 DIFFERENTLY LABELED FLUORESCENT-PROBES [J].

LEITCH, IJ ;

LEITCH, AR ;

HESLOPHARRISON, JS .

GENOME, 1991, 34 (03) :329-333

[12] HIGH-RESOLUTION MAPPING OF HUMAN CHROMOSOME-11 BY INSITU HYBRIDIZATION WITH COSMID CLONES [J].

LICHTER, P ;

TANG, CJC ;

CALL, K ;

HERMANSON, G ;

EVANS, GA ;

HOUSMAN, D ;

WARD, DC .

SCIENCE, 1990, 247 (4938) :64-69

[13]

MALUSZYNSKA J, 1991, PLANT J, V1, P159, DOI 10.1111/j.1365-313X.1991.00159.x

[14] MAPPING OF LOW-FREQUENCY CHIMERIC YEAST ARTIFICIAL CHROMOSOME LIBRARIES FROM HUMAN CHROMOSOME-16 AND CHROMOSOME-21 BY FLUORESCENCE IN-SITU HYBRIDIZATION AND QUANTITATIVE IMAGE-ANALYSIS [J].

MARRONE, BL ;

CAMPBELL, EW ;

ANZICK, SL ;

SHERA, K ;

CAMPBELL, M ;

YOSHIDA, TM ;

MCCORMICK, MK ;

DEAVEN, L .

GENOMICS, 1994, 21 (01) :202-207

[15] TOWARD A PHYSICAL MAP OF HUMAN-CHROMOSOME-10 - ISOLATION OF 183 YACS REPRESENTING 80 LOCI AND REGIONAL ASSIGNMENT OF 94 YACS BY FLUORESCENCE IN-SITU HYBRIDIZATION [J].

MOIR, DT ;

DORMAN, TE ;

DAY, JC ;

MA, NSF ;

WANG, MT ;

MAO, JI .

GENOMICS, 1994, 22 (01) :1-12

[16] MOLECULAR CYTOGENETIC ANALYSIS OF RADIATION-INDUCED WHEAT-RYE TERMINAL AND INTERCALARY CHROMOSOMAL TRANSLOCATIONS AND THE DETECTION OF RYE CHROMATIN SPECIFYING RESISTANCE TO HESSIAN FLY [J].

MUKAI, Y ;

FRIEBE, B ;

HATCHETT, JH ;

YAMAMOTO, M ;

GILL, BS .

CHROMOSOMA, 1993, 102 (02) :88-95

[17] MAPPING OF 18 PROBES ON HUMAN CHROMOSOME-18 USING SINGLE-COLOR AND DOUBLE-COLOR FISH [J].

MULERIS, M ;

APIOU, F ;

OLSCHWANG, S ;

THOMAS, G ;

DUTRILLAUX, B .

CYTOGENETICS AND CELL GENETICS, 1994, 65 (1-2) :82-85

[18]

PAROKONNY AS, 1992, PLANT J, V2, P863

[19] STRUCTURE OF AND HOMOLOGY BETWEEN PACHYTENE AND SOMATIC METAPHASE CHROMOSOMES OF TOMATO [J].

RAMANNA, MS ;

PRAKKEN, R .

GENETICA, 1967, 38 (02) :115-&

[20] GENOMIC INSITU HYBRIDIZATION TO IDENTIFY ALIEN CHROMOSOMES AND CHROMOSOME SEGMENTS IN WHEAT [J].

SCHWARZACHER, T ;

ANAMTHAWATJONSSON, K ;

HARRISON, GE ;

ISLAM, AKMR ;

JIA, JZ ;

KING, IP ;

LEITCH, AR ;

MILLER, TE ;

READER, SM ;

ROGERS, WJ ;

SHI, M ;

HESLOPHARRISON, JS .

THEORETICAL AND APPLIED GENETICS, 1992, 84 (7-8) :778-786

← 1 2 3 4 →