Construction of Physical Maps from Oligonucleotide Fingerprints Data

Mayraz G; Shamir R

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Construction of Physical Maps from Oligonucleotide Fingerprints Data

机译：从寡核苷酸指纹图谱构建物理图谱

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A new algorithm for the construction of physical maps from hybridization fingerprints of short oligonucleotide probes has been developed. Extensive simulations in high-noise scenarios show that the algorithm produces an essentially completely correct map in over 95 % of trials. Tests for the influence of specific experimental parameters demonstrate that the algorithm is robust to both false positive and false negative experimental errors. The algorithm was also tested in simulations using real DNA sequences of C. elegans, E. coli, S. cerevisiae, and H. sapiens. To overcome the non-randomness of probe frequencies in these sequences, probes were preselected based on sequence statistics and a screening process of the hybridization data was developed. With these modifications, the algorithm produced very encouraging results.

机译：已经开发了一种新的算法，可根据短寡核苷酸探针的杂交指纹构建物理图谱。在高噪声场景中的大量仿真表明，该算法在95％以上的试验中都能生成基本上完全正确的地图。对特定实验参数的影响的测试表明，该算法对于错误的正错误和错误的负错误均具有鲁棒性。还使用线虫，大肠杆菌，酿酒酵母和智人的真实DNA序列在模拟中测试了该算法。为了克服这些序列中探针频率的非随机性，基于序列统计信息对探针进行了预选，并开发了杂交数据的筛选方法。经过这些修改，该算法产生了令人鼓舞的结果。

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《Journal of computational biology: A journal of computational molecular cell biology》 |1999年第2期|共16页
作者
Mayraz G; Shamir R;
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正文语种 eng
中图分类普通生物学;
关键词
Statistical genetics; oligonucleotides; Caenorhabditis elegans; Escherichia coli; Saccharomyces cerevisiae; Homo sapiens;

机译：统计遗传学;寡核苷酸;秀丽隐杆线虫;大肠杆菌;酿酒酵母;智人;

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1. Construction of Physical Maps from Oligonucleotide Fingerprints Data [J] . Mayraz G, Shamir R Journal of computational biology: A journal of computational molecular cell biology . 1999,第2期

机译：从寡核苷酸指纹图谱构建物理图谱
2. Physical map of the Kirsten sarcoma virus genome as determined by fingerprinting RNase T1-resistant oligonucleotides. [J] . T Y Shih, H A Young, J M Coffin, Journal of Virology . 1978,第1期

机译：通过指纹识别RNase T1抗性寡核苷酸测定的Kirsten Sarcoma病毒基因组的物理图。
3. Physical map of the Kirsten sarcoma virus genome as determined by fingerprinting RNase T1-resistant oligonucleotides. [J] . T Y Shih, H A Young, J M Coffin, Journal of Virology . 1978,第1期

机译：通过指纹识别RNase T1抗性寡核苷酸测定的Kirsten Sarcoma病毒基因组的物理图。
4. Construction of physical maps from oligonucleotide fingerprints data [C] . Guy Mayraz, Ron Shamir International conference on Computational molecular biology;Annual international conference on Computational molecular biology . 1999

机译：从寡核苷酸指纹数据构建物理图谱
5. Construction of physical maps of group-6 chromosomes of wheat (Triticum aestivum L.) and a consensus Triticeae group-6 physical map. [D] . Weng, Yiqun. 1998

机译：小麦（Triticum aestivum L.）第6组染色体的物理图谱的构建和共有小麦的第6组染色体物理图谱的构建。
6. A test case for physical mapping of human genome by repetitive sequence fingerprints: construction of a physical map of a 420 kb YAC subcloned into cosmids. [O] . C Bellanné-Chantelot, E Barillot, B Lacroix, 1991

机译：通过重复序列指纹对人类基因组进行物理作图的一个测试案例：构建亚克隆到粘粒中的420 kb YAC的物理图。
7. Construction of Physical Maps From Oligonucleotide Fingerprints Data [O] . Guy Mayraz, Ron Shamir 1999

机译：从寡核苷酸指纹图谱构建物理图谱
8. Construction of genome-wide physical BAC contigs using mapped cDNA as probes: Toward an integrated BAC library resource for genome sequencing and analysis. Annual report, July 1995--January 1997 [R] . 1997

机译：使用定位的cDNa作为探针构建全基因组物理BaC重叠群：朝向用于基因组测序和分析的整合BaC文库资源。 1995年7月至1997年1月的年度报告

Construction of Physical Maps from Oligonucleotide Fingerprints Data

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