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3. The DNA sequence and analysis of human chromosome 6

Author

Mungall, A. J., Palmer, S. A., Sims, S. K., Edwards, C. A., Ashurst, J. L., Wilming, L., Jones, M. C., Horton, R., Hunt, S. E., Scott, C. E., Gilbert, J. G. R., Clamp, M. E., Bethel, G., Milne, S., Ainscough, R., Almeida, J. P., Ambrose, K. D., Andrews, T. D., Ashwell, R. I. S., Babbage, A. K., Bagguley, C. L., Bailey, J., Banerjee, R., Barker, D. J., Barlow, K. F., Bates, K., Beare, D. M., Beasley, H., Beasley, O., Bird, C. P., Blakey, S., Bray-Allen, S., Brook, J., Brown, A. J., Brown, J. Y., Burford, D. C., Burrill, W., Burton, J., Carder, C., Carter, N. P., Chapman, J. C., Clark, S. Y., Clark, G., Clee, C. M., Clegg, S., Cobley, V., Collier, R. E., Collins, J. E., Colman, L. K., Corby, N. R., Coville, G. J., Culley, K. M., Dhami, P., Davies, J., Dunn, M., Earthrowl, M. E., Ellington, A. E., Evans, K. A., Faulkner, L., Francis, M. D., Frankish, A., Frankland, J., French, L., Garner, P., Garnett, J., Ghori, M. J. R., Gilby, L. M., Gillson, C. J., Glithero, R. J., Grafham, D. V., Grant, M., Gribble, S., Griffiths, C., Griffiths, M., Hall, R., Halls, K. S., Hammond, S., Harley, J. L., Hart, E. A., Heath, P. D., Heathcott, R., Holmes, S. J., Howden, P. J., Howe, K. L., Howell, G. R., Huckle, E., Humphray, S. J., Humphries, M. D., Hunt, A. R., Johnson, C. M., Joy, A. A., Kay, M., Keenan, S. J., Kimberley, A. M., King, A., Laird, G. K., Langford, C., Lawlor, S., Leongamornlert, D. A., Leversha, M., Lloyd, C. R., Lloyd, D. M., Loveland, J. E., Lovell, J., Martin, S., Mashreghi-Mohammadi, M., Maslen, G. L., Matthews, L., McCann, O. T., McLaren, S. J., McLay, K., McMurray, A., Moore, M. J. F., Mullikin, J. C., Niblett, D., Nickerson, T., Novik, K. L., Oliver, K., Overton-Larty, E. K., Parker, A., Patel, R., Pearce, A. V., Peck, A. I., Phillimore, B., Phillips, S., Plumb, R. W., Porter, K. M., Ramsey, Y., Ranby, S. A., Rice, C. M., Ross, M. T., Searle, S. M., Sehra, H. K., Sheridan, E., Skuce, C. D., Smith, S., Smith, M., Spraggon, L., Squares, S. L., Steward, C. A., Sycamore, N., Tamlyn-Hall, G., Tester, J., Theaker, A. J., Thomas, D. W., Thorpe, A., Tracey, A., Tromans, A., Tubby, B., Wall, M., Wallis, J. M., West, A. P., White, S. S., Whitehead, S. L., Whittaker, H., Wild, A., Willey, D. J., Wilmer, T. E., Wood, J. M., Wray, P. W., Wyatt, J. C., Young, L., Younger, R. M., Bentley, D. R., Coulson, A., Durbin, R., Hubbard, T., Sulston, J. E., Dunham, I., Rogers, J., and Beck, S.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): A. J. Mungall (corresponding author) [1, 2]; S. A. Palmer [1]; S. K. Sims [1]; C. A. Edwards [1]; J. L. Ashurst [1]; L. Wilming [1]; M. C. Jones [...]

Published
2003
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4. The DNA sequence and comparative analysis of human chromosome 20

Author

Deloukas, P., Matthews, L. H., Ashurst, J., Burton, J., Gilbert, J. G. R., Jones, M., Stavrides, G., Almeida, J. P., Babbage, A. K., Bagguley, C. L., Bailey, J., Barlow, K. F., Bates, K. N., Beard, L. M., Beare, D. M., Beasley, O. P., Bird, C. P., Blakey, S. E., Bridgeman, A. M., Brown, A. J., Buck, D., Burrill, W., Butler, A. P., Carder, C., Carter, N. P., Chapman, J. C., Clamp, M., Clark, G., Clark, L. N., Clark, S. Y., Clee, C. M., Clegg, S., Cobley, V. E., Collier, R. E., Connor, R., Corby, N. R., Coulson, A., Coville, G. J., Deadman, R., Dhami, P., Dunn, M., Ellington, A. G., Frankland, J. A., Fraser, A., French, L., Garner, P., Grafham, D. V., Griffiths, C., Griffiths, M. N. D., Gwilliam, R., Hall, R. E., Hammond, S., Harley, J. L., Heath, P. D., Ho, S., Holden, J. L., Howden, P. J., Huckle, E., Hunt, A. R., Hunt, S. E., Jekosch, K., Johnson, C. M., Johnson, D., Kay, M. P., Kimberley, A. M., King, A., Knights, A., Laird, G. K., Lawlor, S., Lehvaslaiho, M. H., Leversha, M., Lloyd, C., Lloyd, D. M., Lovell, J. D., Marsh, V. L., Martin, S. L., McConnachie, L. J., McLay, K., McMurray, A. A., Milne, S., Mistry, D., Moore, M. J. F., Mullikin, J. C., Nickerson, T., Oliver, K., Parker, A., Patel, R., Pearce, T. A. V., Peck, A. I., Phillimore, B. J. C. T., Prathalingam, S. R., Plumb, R. W., Ramsay, H., Rice, C. M., Ross, M. T., Scott, C. E., Sehra, H. K., Shownkeen, R., Sims, S., Skuce, C. D., Smith, M. L., Soderlund, C., Steward, C. A., Sulston, J. E., Swann, M., Sycamore, N., Taylor, R., Tee, L., Thomas, D. W., Thorpe, A., Tracey, A., Tromans, A. C., Vaudin, M., Wall, M., Wallis, J. M., Whitehead, S. L., Whittaker, P., Willey, D. L., Williams, L., Williams, S. A., Wilming, L., Wray, P. W., Hubbard, T., Durbin, R. M., Bentley, D. R., Beck, S., and Rogers, J.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): The Wellcome Trust Sanger Institute ; P. Deloukas (corresponding author); L. H. Matthews; J. Ashurst; J. Burton; J. G. R. Gilbert; M. Jones; G. Stavrides; J. P. Almeida; A. [...]

Published
2001
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5. An SNP map of human chromosome 22

Author

Mullikin, J. C., Hunt, S. E., Cole, C. G., Mortimore, B. J., Rice, C. M., Burton, J., Matthews, L. H., Pavitt, R., Plumb, R. W., Sims, S. K., Ainscough, R. M. R., Attwood, J., Bailey, J. M., Barlow, K., Bruskiewich, R. M. M., Butcher, P. N., Carter, N. P., Chen, Y., Clee, C. M., Coggill, P. C., Davies, J., Davies, R. M., Dawson, E., Francis, M. D., Joy, A. A., Lamble, R. G., Langford, C. F., Macarthy, J., Mall, V., Moreland, A., Overton-Larty, E. K., Ross, M. T., Smith, L. C., Steward, C. A., Sulston, J. E., Tinsley, E. J., Turney, K. J., Willey, D. L., Wilson, G. D., McMurray, A. A., Dunham, I., Rogers, J., and Bentley, D. R.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): J. C. Mullikin; S. E. Hunt; C. G. Cole; B. J. Mortimore; C. M. Rice; J. Burton; L. H. Matthews; R. Pavitt; R. W. Plumb; S. K. Sims; R. [...]

Published
2000
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6. The Genomics of Hydractinia: Understanding Regeneration, Allorecognition, and Stem Cell Biology

Author

Schnitzler, C. E., Nguyen, A. D., Koren, S., Gornik, S. D., Plickert, G., Buss, L., Phillippy, A., Mullikin, J. C., Cartwright, P., Nicotra, M. L., Frank, U., Baxevanis, A. D., Schnitzler, C. E., Nguyen, A. D., Koren, S., Gornik, S. D., Plickert, G., Buss, L., Phillippy, A., Mullikin, J. C., Cartwright, P., Nicotra, M. L., Frank, U., and Baxevanis, A. D.

Published
2018

7. Comparative genomics of Hydractinia and Hydra

Author

Schnitzler, C. E., Nguyen, A. D., Koren, S., Gornik, S. G., Plickert, G., Buss, L., Phillippy, A., Mullikin, J. C., Cartwright, P., Nicotra, M. L., Frank, U., Baxevanis, A. D., Schnitzler, C. E., Nguyen, A. D., Koren, S., Gornik, S. G., Plickert, G., Buss, L., Phillippy, A., Mullikin, J. C., Cartwright, P., Nicotra, M. L., Frank, U., and Baxevanis, A. D.

Published
2017

8. Genomics of Hydractinia: A Cnidarian Model for Regeneration, Allorecognition, and Developmental Biology

Author

Schnitzler, C. E., Nguyen, A. D., Klasfeld, S. J., Bond, S. R., Plickert, G., Buss, L., Wolfsberg, T. G., Mullikin, J. C., Nicotra, M. L., Cartwright, P., Frank, U., Baxevanis, A. D., Schnitzler, C. E., Nguyen, A. D., Klasfeld, S. J., Bond, S. R., Plickert, G., Buss, L., Wolfsberg, T. G., Mullikin, J. C., Nicotra, M. L., Cartwright, P., Frank, U., and Baxevanis, A. D.

Published
2016

9. Somatic mutational landscape of AML with inv(16) or t(8;21) identifies patterns of clonal evolution in relapse leukemia

Author

Sood, R, primary, Hansen, N F, additional, Donovan, F X, additional, Carrington, B, additional, Bucci, D, additional, Maskeri, B, additional, Young, A, additional, Trivedi, N S, additional, Kohlschmidt, J, additional, Stone, R M, additional, Caligiuri, M A, additional, Chandrasekharappa, S C, additional, Marcucci, G, additional, Mullikin, J C, additional, Bloomfield, C D, additional, and Liu, P, additional

Published
2015
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10. A Tale of Two Hydractinia Genomes: Comparative Genomics of Two Sister Hydrozoan Species

Author

Schnitzler, C. E., Sanders, S. M., Plickert, G., Seoighe, C., Buss, L., Wolfsberg, T. G., Nicotra, M., Mullikin, J. C., Cartwright, P., Frank, U., Baxevanis, A. D., Schnitzler, C. E., Sanders, S. M., Plickert, G., Seoighe, C., Buss, L., Wolfsberg, T. G., Nicotra, M., Mullikin, J. C., Cartwright, P., Frank, U., and Baxevanis, A. D.

Published
2014

11. The primacy of NF1loss as the driver of tumorigenesis in neurofibromatosis type 1-associated plexiform neurofibromas

Author

Pemov, A, Li, H, Patidar, R, Hansen, N F, Sindiri, S, Hartley, S W, Wei, J S, Elkahloun, A, Chandrasekharappa, S C, Boland, J F, Bass, S, Mullikin, J C, Khan, J, Widemann, B C, Wallace, M R, and Stewart, D R

Abstract

Neurofibromatosis type 1 (NF1) is a common tumor-predisposition disorder due to germline mutations in the tumor suppressor gene NF1. A virtually pathognomonic finding of NF1 is the plexiform neurofibroma (PN), a benign, likely congenital tumor that arises from bi-allelic inactivation of NF1. PN can undergo transformation to a malignant peripheral nerve sheath tumor, an aggressive soft-tissue sarcoma. To better understand the non-NF1genetic contributions to PN pathogenesis, we performed whole-exome sequencing, RNASeq profiling and genome-wide copy-number determination for 23 low-passage Schwann cell cultures established from surgical PN material with matching germline DNA. All resected tumors were derived from routine debulking surgeries. None of the tumors were considered at risk for malignant transformation at the time; for example, there was no pain or rapid growth. Deep (~500X) NF1exon sequencing was also conducted on tumor DNA. Non-NF1somatic mutation verification was performed using the Ampliseq/IonTorrent platform. We identified 100% of the germline NF1mutations and found somatic NF1inactivation in 74% of the PN. One individual with three PNs had different NF1somatic mutations in each tumor. The median number of somatic mutations per sample, including NF1,was one (range 0–8). NF1was the only gene that was recurrently somatically inactivated in multiple tumors. Gene Set Enrichment Analysis of transcriptome-wide tumor RNA sequencing identified five significant (FDR<0.01) and seven trending (0.01⩽FDR<0.02) gene sets related to DNA replication, telomere maintenance and elongation, cell cycle progression, signal transduction and cell proliferation. We found no recurrent non-NF1locus copy-number variation in PN. This is the first multi-sample whole-exome and whole-transcriptome sequencing study of NF1-associated PN. Taken together with concurrent copy-number data, our comprehensive genetic analysis reveals the primacy of NF1loss as the driver of PN tumorigenesis.

Published
2017
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15. A High-Resolution 15,000Rad Radiation Hybrid Panel for the Domestic Cat.

Author

Bach, L. H., Gandolfi, B., Grahn, J .C., Millon, L. V., Kent, M. S., Narfstrom, K., Cole, S. A., Mullikin, J. C., Grahn, R. A., and Lyons, L. A.

Subjects
GENOMES, FIBROBLASTS, ABYSSINIAN cat, CELL lines, BIOMARKERS
Abstract

The current genetic and recombination maps of the cat have fewer than 3,000 markers and a resolution limit greater than 1 Mb. To complement the first-generation domestic cat maps, support higher resolution mapping studies, and aid genome assembly in specific areas as well as in the whole genome, a 15,000Rad radiation hybrid (RH) panel for the domestic cat was generated. Fibroblasts from the female Abyssinian cat that was used to generate the cat genomic sequence were fused to a Chinese hamster cell line (A23), producing 150hybridlines. The clones were initially characterized using 39 short tandem repeats (STRs) and 1,536 SNP markers. The utility of whole-genome amplification in preserving and extending RH panel DNA was also tested using 10 STR markers; no significant difference in retention was observed. The resolution of the 15,000Rad RH panel was established by con structing framework maps across 10 different 1-Mb regions on different feline chromosomes. In these regions, 2-point analysis was used to estimate RH distances, which compared favorably with the estimation of physical distances. The study demonstrates that the 15,000Rad RH panel constitutes a powerful tool for constructing high-resolution maps, having an average resolution of 40.1 kb per marker across the ten 1-Mb regions. In addition, the RH panel will complement existing genomic resources for the domestic cat, aid in the accurate re-assemblies of the forthcoming cat genomic sequence, and support cross-species genomic comparisons. [ABSTRACT FROM AUTHOR]

Published
2012
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17. SSAHA: a fast search method for large DNA databases.

Author

Ning, Z, Cox, A J, and Mullikin, J C

Abstract

We describe an algorithm, SSAHA (Sequence Search and Alignment by Hashing Algorithm), for performing fast searches on databases containing multiple gigabases of DNA. Sequences in the database are preprocessed by breaking them into consecutive k-tuples of k contiguous bases and then using a hash table to store the position of each occurrence of each k-tuple. Searching for a query sequence in the database is done by obtaining from the hash table the "hits" for each k-tuple in the query sequence and then performing a sort on the results. We discuss the effect of the tuple length k on the search speed, memory usage, and sensitivity of the algorithm and present the results of computational experiments which show that SSAHA can be three to four orders of magnitude faster than BLAST or FASTA, while requiring less memory than suffix tree methods. The SSAHA algorithm is used for high-throughput single nucleotide polymorphism (SNP) detection and very large scale sequence assembly. Also, it provides Web-based sequence search facilities for Ensembl projects.

Published
2001
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18. Deep sequencing with longitudinal sampling of a VRC01-like-antibody response in a chronically infected individual.

Author

Zhang, Z., Wu, X., Longo, N., Zhang, B., Zhu, J., Nisc, C., Mullikin, J. C., Wu, L., Nabel, G. J., Connors, M., Kwong, P. D., Mascola, J. R., and Shapiro, L.

Subjects
IMMUNOGLOBULINS
Abstract

An abstract of the conference paper "Deep sequencing with longitudinal sampling of a VRC01-like-antibody response in a chronically infected individual," by Z. Zhang and colleagues are presented.

Published
2012
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19. A high-resolution 15,000(Rad) radiation hybrid panel for the domestic cat.

Author

Bach LH, Gandolfi B, Grahn JC, Millon LV, Kent MS, Narfstrom K, Cole SA, Mullikin JC, Grahn RA, and Lyons LA

Subjects
Animals, Cell Fusion, Cell Line, Polymorphism, Single Nucleotide, Animals, Domestic genetics, Cats genetics, Hybrid Cells
Abstract

The current genetic and recombination maps of the cat have fewer than 3,000 markers and a resolution limit greater than 1 Mb. To complement the first-generation domestic cat maps, support higher resolution mapping studies, and aid genome assembly in specific areas as well as in the whole genome, a 15,000(Rad) radiation hybrid (RH) panel for the domestic cat was generated. Fibroblasts from the female Abyssinian cat that was used to generate the cat genomic sequence were fused to a Chinese hamster cell line (A23), producing 150 hybrid lines. The clones were initially characterized using 39 short tandem repeats (STRs) and 1,536 SNP markers. The utility of whole-genome amplification in preserving and extending RH panel DNA was also tested using 10 STR markers; no significant difference in retention was observed. The resolution of the 15,000(Rad) RH panel was established by constructing framework maps across 10 different 1-Mb regions on different feline chromosomes. In these regions, 2-point analysis was used to estimate RH distances, which compared favorably with the estimation of physical distances. The study demonstrates that the 15,000(Rad) RH panel constitutes a powerful tool for constructing high-resolution maps, having an average resolution of 40.1 kb per marker across the ten 1-Mb regions. In addition, the RH panel will complement existing genomic resources for the domestic cat, aid in the accurate re-assemblies of the forthcoming cat genomic sequence, and support cross-species genomic comparisons., (Copyright © 2012 S. Karger AG, Basel.)

Published
2012
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20. Initial sequencing and analysis of the human genome.

Author

Lander ES, Linton LM, Birren B, Nusbaum C, Zody MC, Baldwin J, Devon K, Dewar K, Doyle M, FitzHugh W, Funke R, Gage D, Harris K, Heaford A, Howland J, Kann L, Lehoczky J, LeVine R, McEwan P, McKernan K, Meldrim J, Mesirov JP, Miranda C, Morris W, Naylor J, Raymond C, Rosetti M, Santos R, Sheridan A, Sougnez C, Stange-Thomann Y, Stojanovic N, Subramanian A, Wyman D, Rogers J, Sulston J, Ainscough R, Beck S, Bentley D, Burton J, Clee C, Carter N, Coulson A, Deadman R, Deloukas P, Dunham A, Dunham I, Durbin R, French L, Grafham D, Gregory S, Hubbard T, Humphray S, Hunt A, Jones M, Lloyd C, McMurray A, Matthews L, Mercer S, Milne S, Mullikin JC, Mungall A, Plumb R, Ross M, Shownkeen R, Sims S, Waterston RH, Wilson RK, Hillier LW, McPherson JD, Marra MA, Mardis ER, Fulton LA, Chinwalla AT, Pepin KH, Gish WR, Chissoe SL, Wendl MC, Delehaunty KD, Miner TL, Delehaunty A, Kramer JB, Cook LL, Fulton RS, Johnson DL, Minx PJ, Clifton SW, Hawkins T, Branscomb E, Predki P, Richardson P, Wenning S, Slezak T, Doggett N, Cheng JF, Olsen A, Lucas S, Elkin C, Uberbacher E, Frazier M, Gibbs RA, Muzny DM, Scherer SE, Bouck JB, Sodergren EJ, Worley KC, Rives CM, Gorrell JH, Metzker ML, Naylor SL, Kucherlapati RS, Nelson DL, Weinstock GM, Sakaki Y, Fujiyama A, Hattori M, Yada T, Toyoda A, Itoh T, Kawagoe C, Watanabe H, Totoki Y, Taylor T, Weissenbach J, Heilig R, Saurin W, Artiguenave F, Brottier P, Bruls T, Pelletier E, Robert C, Wincker P, Smith DR, Doucette-Stamm L, Rubenfield M, Weinstock K, Lee HM, Dubois J, Rosenthal A, Platzer M, Nyakatura G, Taudien S, Rump A, Yang H, Yu J, Wang J, Huang G, Gu J, Hood L, Rowen L, Madan A, Qin S, Davis RW, Federspiel NA, Abola AP, Proctor MJ, Myers RM, Schmutz J, Dickson M, Grimwood J, Cox DR, Olson MV, Kaul R, Raymond C, Shimizu N, Kawasaki K, Minoshima S, Evans GA, Athanasiou M, Schultz R, Roe BA, Chen F, Pan H, Ramser J, Lehrach H, Reinhardt R, McCombie WR, de la Bastide M, Dedhia N, Blöcker H, Hornischer K, Nordsiek G, Agarwala R, Aravind L, Bailey JA, Bateman A, Batzoglou S, Birney E, Bork P, Brown DG, Burge CB, Cerutti L, Chen HC, Church D, Clamp M, Copley RR, Doerks T, Eddy SR, Eichler EE, Furey TS, Galagan J, Gilbert JG, Harmon C, Hayashizaki Y, Haussler D, Hermjakob H, Hokamp K, Jang W, Johnson LS, Jones TA, Kasif S, Kaspryzk A, Kennedy S, Kent WJ, Kitts P, Koonin EV, Korf I, Kulp D, Lancet D, Lowe TM, McLysaght A, Mikkelsen T, Moran JV, Mulder N, Pollara VJ, Ponting CP, Schuler G, Schultz J, Slater G, Smit AF, Stupka E, Szustakowki J, Thierry-Mieg D, Thierry-Mieg J, Wagner L, Wallis J, Wheeler R, Williams A, Wolf YI, Wolfe KH, Yang SP, Yeh RF, Collins F, Guyer MS, Peterson J, Felsenfeld A, Wetterstrand KA, Patrinos A, Morgan MJ, de Jong P, Catanese JJ, Osoegawa K, Shizuya H, Choi S, Chen YJ, and Szustakowki J

Subjects
Animals, Chromosome Mapping, Conserved Sequence, CpG Islands, DNA Transposable Elements, Databases, Factual, Drug Industry, Evolution, Molecular, Forecasting, GC Rich Sequence, Gene Duplication, Genes, Genetic Diseases, Inborn, Genetics, Medical, Humans, Mutation, Private Sector, Proteins genetics, Proteome, Public Sector, RNA genetics, Repetitive Sequences, Nucleic Acid, Species Specificity, Genome, Human, Human Genome Project, Sequence Analysis, DNA methods
Abstract

The human genome holds an extraordinary trove of information about human development, physiology, medicine and evolution. Here we report the results of an international collaboration to produce and make freely available a draft sequence of the human genome. We also present an initial analysis of the data, describing some of the insights that can be gleaned from the sequence.

Published
2001
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21. A map of human genome sequence variation containing 1.42 million single nucleotide polymorphisms.

Author

Sachidanandam R, Weissman D, Schmidt SC, Kakol JM, Stein LD, Marth G, Sherry S, Mullikin JC, Mortimore BJ, Willey DL, Hunt SE, Cole CG, Coggill PC, Rice CM, Ning Z, Rogers J, Bentley DR, Kwok PY, Mardis ER, Yeh RT, Schultz B, Cook L, Davenport R, Dante M, Fulton L, Hillier L, Waterston RH, McPherson JD, Gilman B, Schaffner S, Van Etten WJ, Reich D, Higgins J, Daly MJ, Blumenstiel B, Baldwin J, Stange-Thomann N, Zody MC, Linton L, Lander ES, and Altshuler D

Subjects
Chromosome Mapping, Genetics, Medical, Genetics, Population, Humans, Nucleotides, Genetic Variation, Genome, Human, Polymorphism, Single Nucleotide
Abstract

We describe a map of 1.42 million single nucleotide polymorphisms (SNPs) distributed throughout the human genome, providing an average density on available sequence of one SNP every 1.9 kilobases. These SNPs were primarily discovered by two projects: The SNP Consortium and the analysis of clone overlaps by the International Human Genome Sequencing Consortium. The map integrates all publicly available SNPs with described genes and other genomic features. We estimate that 60,000 SNPs fall within exon (coding and untranslated regions), and 85% of exons are within 5 kb of the nearest SNP. Nucleotide diversity varies greatly across the genome, in a manner broadly consistent with a standard population genetic model of human history. This high-density SNP map provides a public resource for defining haplotype variation across the genome, and should help to identify biomedically important genes for diagnosis and therapy.

Published
2001
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22. Cancer and genomics.

Author

Futreal PA, Kasprzyk A, Birney E, Mullikin JC, Wooster R, and Stratton MR

Subjects
Base Sequence, DNA, Neoplasm, Gene Library, Genes, Tumor Suppressor, Human Genome Project, Humans, Oncogenes, Genome, Human, Genomics, Neoplasms genetics
Abstract

Identification of the genes that cause oncogenesis is a central aim of cancer research. We searched the proteins predicted from the draft human genome sequence for paralogues of known tumour suppressor genes, but no novel genes were identified. We then assessed whether it was possible to search directly for oncogenic sequence changes in cancer cells by comparing cancer genome sequences against the draft genome. Apparently chimaeric transcripts (from oncogenic fusion genes generated by chromosomal translocations, the ends of which mapped to different genomic locations) were detected to the same degree in both normal and neoplastic tissues, indicating a significant level of false positives. Our experiment underscores the limited amount and variable quality of DNA sequence from cancer cells that is currently available.

Published
2001
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24. Quantitative DNA fiber mapping.

Author

Weier HU, Wang M, Mullikin JC, Zhu Y, Cheng JF, Greulich KM, Bensimon A, and Gray JW

Subjects
Bacteriophage lambda genetics, Chromosomes, Artificial, Yeast, Cloning, Molecular, Cosmids, DNA chemistry, DNA genetics, DNA Probes, DNA, Viral chemistry, DNA, Viral genetics, Humans, In Situ Hybridization, Fluorescence, Molecular Sequence Data, Restriction Mapping, Chromosome Mapping, Genome, Genome, Human
Abstract

The assembly of sequence ready, high-resolution physical maps and construction of minimally overlapping contigs for the human as well as model genomes requires accurate determination of the extent of overlap between adjacent clones as well as their relative orientation. This is presently done by procedures such as clone fingerprinting, Southern blot analysis or clone end sequencing. We present a complementary analytical technique to map directly cloned DNA sequences on to individual stretched DNA molecules. This approach uses the hydrodynamic force of a receding meniscus to prepare straight high molecular weight DNA molecules that provide a linear template of approximately 2.3 kb/microns on to which the cloned probes can be mapped by in situ hybridization. This technique has numerous advantages such as a very high density of mapping templates, reproducible stretching of the mapping template providing a linear genomic scale, determination of clone orientation and direct visualization of DNA repeats. The utility and accuracy of quantitative DNA fiber mapping are illustrated through three examples: (i) mapping of lambda DNA restriction fragments along linearized approximately 49 kb long lambda phage DNA molecules with approximately 1 kb precision; (ii) localization of the overlap between a cosmid and a colinear P1 clone; and (iii) mapping of P1 clones along an approximately 490 kb yeast artificial chromosome (YAC) with approximately 5 kb precision and estimation of the approximately 25 kb gap between them.

Published
1995
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25. Dicentric chromosome frequency analysis using slit-scan flow cytometry.

Author

Lucas JN, Mullikin JC, and Gray JW

Subjects
Algorithms, Cells, Cultured, Chromosomes chemistry, Chromosomes radiation effects, DNA analysis, Dose-Response Relationship, Radiation, Humans, Lymphocytes cytology, Lymphocytes radiation effects, Lymphocytes ultrastructure, Microspheres, Resting Phase, Cell Cycle radiation effects, Centromere ultrastructure, Chromosomes ultrastructure, Flow Cytometry methods
Abstract

Slit-scan flow cytometry (SSFCM) was used to quantify the frequency of dicentric chromosomes in human lymphoblastoid cells following gamma irradiation. In this study, cultured human cells were irradiated with 0, 0.25, 0.5, 1.0, and 2.0 Gy of 0.66 MeV gamma-rays, cultured for an additional 11 h, and treated for 5 h with colcemid. Chromosomes were then isolated, stained with propidium iodide, and analyzed using SSFCM for total fluorescence and slit-scan profile. The frequency of chromosomes having DNA contents greater than once and less than twice the DNA content of the number 1 chromosome and producing trimodal profiles was determined at each dose. This frequency was used as an estimate of the relative dicentric chromosome frequency at that dose. The estimated dicentric chromosome frequency per cell, f(D), increased with dose, D, in a linear-quadratic manner according to the relation f(D) = 4.52 x 10(-5) + 5.72 x 10(-5) D + 1.19 x 10(-4) D2.

Published
1991
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26. Validation of the saline-dilution method for measuring cardiac output by simultaneous measurement with a perivascular electromagnetic flowprobe.

Author

Voorhees WD 3rd, Bourland JD, Lamp ML, Mullikin JC, and Geddes LA

Subjects
Animals, Blood Flow Velocity, Dogs, Indicator Dilution Techniques, Pulmonary Artery physiology, Cardiac Output, Electromagnetic Phenomena instrumentation, Rheology, Saline Solution, Hypertonic, Sodium Chloride
Abstract

The validity of measurements of right heart output obtained by the saline-indicator method with a catheter-mounted, tetrapolar resistivity sensor placed in the pulmonary artery was assessed. In ten anesthetized dogs, cardiac output was measured simultaneously by the saline-indicator method, using 5 ml of 3 per cent saline as the indicator, and by a perivascular electromagnetic flowprobe placed around the trunk of the pulmonary artery. Cardiac output was altered over a wide range by increasing the depth of halothane anesthesia and by bolus injections of isoproterenol. Linear regression analysis of cardiac output determined from 455 saline-indicator curves and from simultaneous recordings of the electromagnetic flow signal yielded a slope of 0.973, a Y intercept of -0.0047 1/minute, and a correlation coefficient of 0.965. Hence, this method provides accurate and precise measurement of cardiac output. The saline-indicator method with the catheter-mounted resistivity sensor is simple to use and eliminates or minimizes the disadvantages of other indicator-dilution techniques.

Published
1985

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