An improved genetic linkage map of rat chromosome 20

被引:0
|
作者
Masuyama, T
Ishibiki, J
Awata, T
Noda, M
Kanazawa, Y
Sugawara, M
Komeda, K
机构
[1] Tokyo Med Univ, Anim Res Ctr, Div Lab Anim Sci, Shinjuku Ku, Tokyo 1608402, Japan
[2] Torii Pharmaceut Co Ltd, Res Labs, Midori Ku, Chiba 2660013, Japan
[3] Nippon Vet & Anim Sci Univ, Dept Anim Biochem, Tokyo 1808602, Japan
[4] Saitama Med Sch, Dept Internal Med 4, Moroyama, Saitama 3500004, Japan
[5] Univ Tokyo, Grad Sch Med, Dept Metab Dis, Tokyo 1138655, Japan
[6] Jichi Med Sch, Omiya Med Ctr, Omiya, Saitama 3308503, Japan
来源
COMPARATIVE MEDICINE | 2000年 / 50卷 / 04期
关键词
D O I
暂无
中图分类号
S85 [动物医学(兽医学)];
学科分类号
0906 ;
摘要
Background and Purpose: Rat chromosome 20 is one of special interest because it contains some diabetogenic genes, such as a major histocompatibility complex (MHC)-linked genetic components and quantitative trait loci. We studied rat chromosome 20, using the backcross progeny between BB/Wor and PVG.R23 rats, and confirmed the genetic linkage map by use of another backcross panel. Methods: Backcross panels were done between BB/Wor and PVG.R23 rats, and BN and KZC rats. Length variations of simple sequence length polymorphism markers were analyzed by use of polymerase chain reaction (PCR) analysis. Alleles of RT1-Bb and RT1-Db were analyzed by use of the PCR-restriction fragment length polymorphism method. Genetic maps of rat chromosome 20 were constructed, using the Map Manager computer program. Results: Fifty-two loci were mapped on rat chromosome 20, Genetic length was 57.9 cM, with average spanning of 1.11 cM between markers. The positions of RT1-N1, Tnf, and RT1-Bb into the MHC region were separated and confirmed by results of two backcross panels in our linkage studies. Conclusions: The genetic linkage map of rat chromosome 20 was improved, and was a useful tool for genetic analysis of a diabetogenic gene(s) and for producing MHC congenic strains.
引用
收藏
页码:369 / 373
页数:5
相关论文
共 50 条
  • [31] A MULTIPOINT GENETIC-LINKAGE MAP OF MOUSE CHROMOSOME-18
    JOHNSON, KR
    DAVISSON, MT
    GENOMICS, 1992, 13 (04) : 1143 - 1149
  • [32] A MICROSATELLITE GENETIC-LINKAGE MAP OF HUMAN CHROMOSOME-13
    PETRUKHIN, KE
    SPEER, MC
    CAYANIS, E
    BONALDO, MD
    TANTRAVAHI, U
    SOARES, MB
    FISCHER, SG
    WARBURTON, D
    GILLIAM, TC
    OTT, J
    GENOMICS, 1993, 15 (01) : 76 - 85
  • [33] A MICROSATELLITE GENETIC-LINKAGE MAP OF HUMAN CHROMOSOME-13
    PETRUKHIN, KE
    SPEER, MC
    CAYANIS, E
    BONALDO, MD
    TANTRAVAHI, U
    SOARES, MB
    FISCHER, SG
    WARBURTON, D
    GILLIAM, TC
    OTT, J
    CYTOGENETICS AND CELL GENETICS, 1993, 62 (2-3): : 104 - 104
  • [34] GENETIC-LINKAGE MAP OF 19 LOCI ON CHROMOSOME-XQ
    GOLDGAR, DE
    NGUYEN, KN
    FAIN, PR
    SKOLNICK, MH
    BARKER, DF
    CYTOGENETICS AND CELL GENETICS, 1989, 51 (1-4): : 1006 - 1006
  • [35] A MICROSATELLITE GENETIC-LINKAGE MAP OF HUMAN CHROMOSOME-18
    STRAUB, RE
    SPEER, MC
    LUO, Y
    ROJAS, K
    OVERHAUSER, J
    OTT, J
    GILLIAM, TC
    GENOMICS, 1993, 15 (01) : 48 - 56
  • [36] A COMPREHENSIVE GENETIC-LINKAGE MAP OF HUMAN-CHROMOSOME-13
    MATISE, TC
    BOWCOCK, A
    CHAKRAVARTI, A
    CYTOGENETICS AND CELL GENETICS, 1995, 70 (1-2): : 19 - 20
  • [37] A GENETIC-LINKAGE MAP OF 22 LOCI ON CHROMOSOME-22
    DUMANSKI, JP
    CARLBOM, E
    COLLINS, P
    NORDENSKJOLD, M
    EMANUEL, B
    BUDARF, M
    MCDERMID, H
    WOLFF, R
    OCONNELL, P
    WHITE, R
    LALOUEL, JM
    LEPPERT, M
    CYTOGENETICS AND CELL GENETICS, 1991, 58 (3-4): : 2047 - 2047
  • [38] AN UPDATED GENETIC-LINKAGE MAP FOR HUMAN CHROMOSOME-8
    STEINBRUECK, T
    READ, C
    DONISKELLER, H
    CYTOGENETICS AND CELL GENETICS, 1993, 64 (3-4): : 144 - 144
  • [39] A MOLECULAR GENETIC-LINKAGE MAP OF MOUSE CHROMOSOME-7
    SAUNDERS, AM
    SELDIN, MF
    GENOMICS, 1990, 8 (03) : 525 - 535
  • [40] A COMPREHENSIVE GENETIC-LINKAGE MAP OF HUMAN CHROMOSOME-2
    ANKER, R
    STEINBRUECK, T
    HOLT, M
    WEBER, JL
    DONISKELLER
    CYTOGENETICS AND CELL GENETICS, 1993, 64 (02): : 86 - 86
12345