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Long non‐coding RNAs in nucleus pulposus cell function and intervertebral disc degeneration 下载免费PDF全文
Zheng Li Xingye Li Chong Chen Shugang Li Jianxiong Shen Gary Tse Matthew T. V. Chan William K. K. Wu 《Cell proliferation》2018,51(5)
Intervertebral disc degeneration (IDD) is the major cause of low back pain which incurs a significant public‐health and economic burden. The aetiology of IDD is complex, with developmental, genetic, biomechanical and biochemical factors contributing to the disease development. Deregulated phenotypes of nucleus pulposus cells, including aberrant differentiation, apoptosis, proliferation and extracellular matrix deposition, are involved in the initiation and progression of IDD. Non‐coding RNAs, including long non‐coding RNAs (lncRNAs), have recently been identified as important regulators of gene expression. Research into their roles in IDD has been very active over the past 5 years. Our review summarizes current research regarding the roles of deregulated lncRNAs (eg, RP11‐296A18.3, TUG1, HCG18) in modulating nucleus pulposus cell functions in IDD. These exciting findings suggest that specific modulation of lncRNAs or their downstream signalling pathways might be an attractive approach for developing novel therapeutics for IDD. 相似文献
154.
Human lipoprotein lipase last exon is not translated,in contrast to lower vertebrates 总被引:1,自引:0,他引:1
F. Arnault J. Etienne L. Noé A. Raisonnier D. Brault J. W. Harney M. J. Berry C. Tse C. Fromental-Ramain J. Hamelin F. Galibert 《Journal of molecular evolution》1996,43(2):109-115
We have sequenced the first fish (zebrafish,Brachydanio rerio) lipoprotein lipase (LPL) cDNA clone. Similarities were found in mammalian LPL cDNA, but the codon spanning the last two
exons (which is thus split by the last intron) is AGA (Arg) as opposed to TGA in mammals. Exon 10 is thus partially translated.
These results were confirmed with rainbow trout (Oncorhynchus mykiss). We also investigated whether mammal TGA coded for selenocystein (SeCys), the 21st amino acid, but found that this was not
the case: TGA does not encode SeCys but is a stop codon. It thus appears that the sense codon AGA (fish) has been transformed
into a stop codon TGA (human) during the course of evolution. It remains to be determined if the “loss” of the C-terminal
end of mammalian LPL protein has conferred an advantage in terms of LPL activity or, on the contrary, a disadvantage (e.g.,
susceptibility to diabetes or atherosclerosis).
Correspondence to: J. Etienne 相似文献
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C C Lin T H Hansen H C Passmore A S Rosenthal H Y Tse W D Walsh S Kanamori 《Journal of immunology (Baltimore, Md. : 1950)》1984,132(1):303-309
The immune response to beef insulin in mice is controlled by genes in the IA subregion. We have previously shown that B6.C-H-2bm12 (bm12) mice, an A beta gene mutation of B6, have a selective loss of responsiveness to beef insulin, whereas other IAb controlled responses such as (TG)AL and collagen are unchanged. F1 hybrid mice between two nonresponder genotypes Ik and Ibm12 were found to be good responders to beef insulin suggesting functional complementation. In this report, we define the cellular and molecular basis of this complementation by investigating the determinants on Ia molecules and nominal antigen that are recognized by (B10.A X bm12)F1 proliferating T cells. Genetic analyses demonstrated that the Ik region was the only nonresponder genotype that complemented Ibm12, thus restoring responsiveness to beef insulin. More precisely an IAk and not an IEk gene product was found to be responsible for this complementation. Antibody blocking studies furthermore showed that the A alpha b:A beta k hybrid Ia mediated the response to beef insulin in (B10.A X bm12)F1 mice. Clonal analyses of the response to beef insulin in these F1 mice confirmed these conclusions, because the insulin-specific response in all 21 F1-T cell clones studied thus far was found to be dependent upon presentation via the A alpha b:A beta k hybrid Ia molecule. Dissection of the antigenic specificity of the F1-T cell clones demonstrated recognition of at least two insulin determinants, one A-loop (A8-A10) associated and the other non-loop (A4 or B chain) associated. Therefore these studies identify the molecular and antigenic basis of the Ir gene complementation seen in the response to beef insulin of (B10.A X bm12)F1 hybrids. 相似文献
158.
Tony Tse 《The Yale journal of biology and medicine》1988,61(3):285-Jun;61(3):285
159.
Many biologically active peptides are supposed to interact with specific receptors mainly due to hydrophobic forces. In order to obtain a more detailed information about the peptide molecule behavior at the "water-non-polar-phase" boundary an approach to the calculation of stable conformations on such a boundary has been developed. This approach is used for investigation of the amphiphilic properties of angiotensin and its six fragments. The results of calculations of transfer energies of these peptides from the water environment to the phase boundary are in agreement with the experimental data. 相似文献
160.
Differential androgenic control of prostatic cytosolic cAMP-dependent and -independent protein kinases 总被引:1,自引:0,他引:1
Whether or not various cytosolic protein kinases (and especially the type I cAMP-dependent protein kinase) of rat ventral prostate are specifically regulated with respect to total activity or specific activity by androgen has been investigated. Following androgen deprivation, the total activity per prostate of cAMP-dependent protein kinase (with histone as substrate) changed little at 24 h, declining by about 20% at 96 h. Under these conditions, its specific activity remained unaltered at 24 h, but was markedly enhanced at 96 h postorchiectomy. Type II cAMP-dependent protein kinase in rat ventral prostate cytosol was the only form of cAMP-dependent protein kinases present as determined by measurement of catalytic activity as well as [32P]-8-N3-cAMP binding to the regulatory subunits. There was no alteration in the distribution of the isoenzymes of cAMP-dependent protein kinases or the response of these kinase activities to cAMP owing to castration of animals. The prostatic cytosol also contains free regulatory subunit (with molecular weight similar to that of regulatory subunit R1) which coelutes with type II cAMP-dependent protein kinase. This finding was confirmed by using [32P]-8-N3-cAMP photoaffinity labeling of cAMP-binding proteins. With respect to cAMP-independent protein kinase (measured with dephosphophosvitin as substrate), a decline of 31% in its specific activity was observed in cytosol of prostates from rats castrated for a period of 24 h without significant further change at later periods following castration. However, there was a marked progressive reduction in total activity of this enzyme per prostate (loss of 72% at 96 h postorchiectomy). The increase in specific activity of cAMP-dependent, but not cAMP-independent, protein kinase in the face of decreasing total activity in the cytosol at later periods of castration (e.g., at 96 h) may reflect a slower loss of the former enzyme protein than the bulk of the cytosolic proteins. Administration of testosterone to castrated animals prevented these changes. These data do not indicate a specific regulation by steroid of the type I cAMP-dependent protein kinase in the prostate. Rather, the cAMP-independent protein kinase (with dephosphophosvitin as substrate) appears to be modulated by the androgenic status of the animal. 相似文献