Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

New multisubstrate-type inhibitors of the deoxynucleoside kinases have been synthesized, tested for their specificity as soluble inhibitors of enzymes from Lactobacillus acidophilus, and used to construct media for affinity chromatography. Each inhibitor was a deoxynucleoside 5'-adenosine 5"'-P1,P4-tetraphosphate (abbreviated dNp4A, where dN represents a dAdo, dCyd, dGuo, or dThd moiety linked through its 5'-hydroxyl to the terminal phosphate of adenosine tetraphosphate). At micromolar concentrations, each inhibitor strongly and specifically inhibited the corresponding deoxynucleoside kinase. Each of the four Lactobacillus deoxynucleoside kinase activities was selectively retained on its homologous dNp4A-Sepharose affinity medium. The activity was eluted on addition of the respective dNp4A with up to 70% recovery and 300-500-fold purification (relative to an ammonium sulfate fraction). Whereas dThd kinase was retained only by the dTp4A column, a portion of the dAdo kinase activity was retained, along with all the dCyd kinase or dGuo kinase, on dCp4A- or dGp4A-Sepharose, respectively, and coeluted with these activities. Conversely, all three activities were quantitatively retained on dAp4A-Sepharose, without competition from either dCyd or dGuo, and were eluted simultaneously upon addition of dAp4A. These observations further confirm the understanding that this organism employs paired, and presumably bifunctional, kinases, namely dCyd/dAdo kinase and dGuo/dAdo kinase, along with a separate thymidine kinase.
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PMID:Multisubstrate analogs for deoxynucleoside kinases. Use in novel affinity media applied to resolution of Lactobacillus enzymes. 299 85

The inhibition of growth is a cardinal symptom of zinc deficiency. In animals fed a zinc-inadequate diet, both food intake and growth are reduced within 4-5 d. Despite the concomitant reduction in food intake and growth, reduced energy intake is not the limiting factor in growth, because force-feeding a zinc-inadequate diet to animals fails to maintain growth. Hence, food intake and growth appear to be regulated by zinc through independent, although well coordinated, mechanisms. Despite the long-term study of zinc metabolism, the first limiting role of zinc in cell proliferation remains undefined. Zinc participates in the regulation of cell proliferation in several ways; it is essential to enzyme systems that influence cell division and proliferation. Removing zinc from the extracellular milieu results in decreased activity of deoxythymidine kinase and reduced levels of adenosine(5')tetraphosphate(5')-adenosine. Hence, zinc may directly regulate DNA synthesis through these systems. Zinc also influences hormonal regulation of cell division. Specifically, the pituitary growth hormone (GH)-insulin-like growth factor-I (IGF-I) axis is responsive to zinc status. Both increased and decreased circulating concentrations of GH have been observed in zinc deficiency, although circulating IGF-I concentrations are consistently decreased. However, growth failure is not reversed by maintaining either GH or IGF-I levels through exogenous administration, which suggests the defect occurs in hormone signaling. Zinc appears to be essential for IGF-I induction of cell proliferation; the site of regulation is postreceptor binding. Overall, the evidence suggests that reduced zinc availability affects membrane signaling systems and intracellular second messengers that coordinate cell proliferation in response to IGF-I.
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PMID:The role of zinc in growth and cell proliferation. 1080 66