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Integration of telomere sequences with the draft human genome sequence 总被引:15,自引:0,他引:15
Riethman HC Xiang Z Paul S Morse E Hu XL Flint J Chi HC Grady DL Moyzis RK 《Nature》2001,409(6822):948-951
Telomeres are the ends of linear eukaryotic chromosomes. To ensure that no large stretches of uncharacterized DNA remain between the ends of the human working draft sequence and the ends of each chromosome, we would need to connect the sequences of the telomeres to the working draft sequence. But telomeres have an unusual DNA sequence composition and organization that makes them particularly difficult to isolate and analyse. Here we use specialized linear yeast artificial chromosome clones, each carrying a large telomere-terminal fragment of human DNA, to integrate most human telomeres with the working draft sequence. Subtelomeric sequence structure appears to vary widely, mainly as a result of large differences in subtelomeric repeat sequence abundance and organization at individual telomeres. Many subtelomeric regions appear to be gene-rich, matching both known and unknown expressed genes. This indicates that human subtelomeric regions are not simply buffers of nonfunctional 'junk DNA' next to the molecular telomere, but are instead functional parts of the expressed genome. 相似文献
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Disruption of neurotransmission in Drosophila mushroom body blocks retrieval but not acquisition of memory 总被引:12,自引:0,他引:12
Surgical, pharmacological and genetic lesion studies have revealed distinct anatomical sites involved with different forms of learning. Studies of patients with localized brain damage and work in rodent model systems, for example, have shown that the hippocampal formation participates in acquisition of declarative tasks but is not the site of their long-term storage. Such lesions are usually irreversible, however, which has limited their use for dissecting the temporal processes of acquisition, storage and retrieval of memories. Studies in bees and flies have similarly revealed a distinct anatomical region of the insect brain, the mushroom body, that is involved specifically in olfactory associative learning. We have used a temperature-sensitive dynamin transgene, which disrupts synaptic transmission reversibly and on the time-scale of minutes, to investigate the temporal requirements for ongoing neural activity during memory formation. Here we show that synaptic transmission from mushroom body neurons is required during memory retrieval but not during acquisition or storage. We propose that the hebbian processes underlying olfactory associative learning reside in mushroom body dendrites or upstream of the mushroom body and that the resulting alterations in synaptic strength modulate mushroom body output during memory retrieval. 相似文献
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Grady WM Willis J Guilford PJ Dunbier AK Toro TT Lynch H Wiesner G Ferguson K Eng C Park JG Kim SJ Markowitz S 《Nature genetics》2000,24(1):16-17
Aberrant promoter methylation and the associated loss of gene expression is a common accompaniment of human cancers. Nonetheless, it has been challenging to demonstrate in any given tumour that methylation of a specific gene was causal and not consequent to malignant transformation. In this regard, our attention was drawn to the genesis of gastric cancers in individuals with hereditary diffuse gastric cancer (HDGC). These individuals harbour germline mutations in the gene encoding E-cadherin, CDH1, but their cancers have consistently demonstrated absence of loss of heterozygosity at the CDH1 locus. These findings suggested the hypothesis that CDH1 promoter methylation might function as the 'second genetic hit' in the genesis of these cancers. 相似文献
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Frances E. Arrighi Priscilla P. Saunders Grady F. Saunders T. C. Hsu 《Cellular and molecular life sciences : CMLS》1971,27(8):964-966
Zusammenfassung Studien von in situ DNS/RNS-Hybriden (oder Mischflüssigkeiten) zwischen RNS und verschiedenen Fraktionen von DNS und Metaphase-Chromosomen des Menschen ergaben, dass hauptsächlich die wiederholt vorkommende DNS-Fraktion C
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t = 0 0.005 sich in der centromeren und telomeren Region befindet.
Supported in part by grants No. G-267 and No. G-373 from the Robert A. Welch Foundation, and grants No. DRG-269 and No. 1061 from the Damon Runyon Memorial Fund for Cancer Research 相似文献
Supported in part by grants No. G-267 and No. G-373 from the Robert A. Welch Foundation, and grants No. DRG-269 and No. 1061 from the Damon Runyon Memorial Fund for Cancer Research 相似文献
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