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An STS-based radiation hybrid map of the human genome

被引:273
作者
Stewart, EA
McKusick, KB
Aggarwal, A
Bajorek, E
Brady, S
Chu, A
Fang, N
Hadley, D
Harris, M
Hussain, S
Lee, R
Maratukulam, A
OConnor, K
Perkins, S
Piercy, M
Qin, F
Reif, T
Sanders, C
She, XH
Sun, WL
Tabar, P
Voyticky, S
Cowles, S
Fan, JB
Mader, C
Quackenbush, J
Myers, RM
Cox, DR
机构
[1] STANFORD UNIV,SCH MED,STANFORD HUMAN GENOME CTR,PALO ALTO,CA 94304
[2] STANFORD UNIV,SCH MED,DEPT GENET,PALO ALTO,CA 94304
来源
GENOME RESEARCH | 1997年 / 7卷 / 05期
关键词
D O I
10.1101/gr.7.5.422
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
We have constructed a physical map of the human genome by using a panel of 83 whole genome radiation hybrids (the Stanford G3 panel) in conjunction with 10,478 sequence-tagged sites (STSs) derived from random genomic DNA sequences, previously mapped genetic markers, and expressed sequences. Of these STSs, 5049 are framework markers that fall into 1766 high-confidence bins. An additional 945 STSs are indistinguishable in their map location from one or more of the framework markers. These 5994 mapped STSs have an average spacing of 500 kb. An additional 4484 STSs are positioned with respect to the framework markets. Comparison of the orders of markers oil this map with orders derived fi-om independent meiotic and YAC STS-content maps indicates that the error rare in defining high-confidence bins is <5%. Analysis of 322 random cDNAs indicates that the map covers the vast majority of the human genome. This STS-based radiation hybrid map of the human genome brings us one step closer to the goal of a physical map containing 30,000 unique ordered landmarks with an average marker spacing of 100 kb.
引用
收藏
页码:422 / 433
页数:12
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