The DNA sequence and biological annotation of human chromosome 1
Copyright policy )The DNA sequence and biological annotation of human chromosome 1
The reference sequence for each human chromosome provides the framework for understanding genome function, variation and evolution. Here we report the finished sequence and biological annotation of human chromosome 1. Chromosome 1 is gene-dense, with 3,141 genes and 991 pseudogenes, and many coding sequences overlap. Rearrangements and mutations of chromosome 1 are prevalent in cancer and many other diseases. Patterns of sequence variation reveal signals of recent selection in specific genes that may contribute to human fitness, and also in regions where no function is evident. Fine-scale recombination occurs in hotspots of varying intensity along the sequence, and is enriched near genes. These and other studies of human biology and disease encoded within chromosome 1 are made possible with the highly accurate annotated sequence, as part of the completed set of chromosome sequences that comprise the reference human genome.
- Washington State University United States
- University of Mary United States
- University of Oxford United Kingdom
- King's College London United Kingdom
- University College London United Kingdom
DNA Replication Timing, Molecular Sequence Data, 610, Diseases, 612, Genome function, Keywords: Biology, Chromosomes, 576, Open Reading Frames, human evolution, Genetic, Gene Duplication, cancer, Humans, Disease, chromosome, Selection, Genetic, Selection, genome, Tumors, Biological annotation, Recombination, Genetic, accuracy, Base Sequence, article, Genetic Variation, DNA, Genomics, Sequence Analysis, DNA, chromosom, Recombination, recombination, Genes, Chromosome sequences, Chromosomes, Human, Pair 1, Pair 1, gene expression, mutation, Sequence Analysis, Pseudogenes, Human
DNA Replication Timing, Molecular Sequence Data, 610, Diseases, 612, Genome function, Keywords: Biology, Chromosomes, 576, Open Reading Frames, human evolution, Genetic, Gene Duplication, cancer, Humans, Disease, chromosome, Selection, Genetic, Selection, genome, Tumors, Biological annotation, Recombination, Genetic, accuracy, Base Sequence, article, Genetic Variation, DNA, Genomics, Sequence Analysis, DNA, chromosom, Recombination, recombination, Genes, Chromosome sequences, Chromosomes, Human, Pair 1, Pair 1, gene expression, mutation, Sequence Analysis, Pseudogenes, Human
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