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971.
972.
Abstract Kiwifruit plants, Actinidia sp., are native to subtropical China. The flower-bud gall of A. valvata, which is induced by an undescribed gall midge in the genus Pseud as phond ylia, is valued by the pharmaceutical industry. When studying the biology of the Actinid ia/Pseud as phond ylia interaction in Central-south China we found evidence suggesting that under certain circumstances the gall insect modifies the reproductive mode of the dioecious host plant. Surveys and field experiments in the National Hupingshan Natural Reserve showed a high frequency of galled trees. The density of galled trees varied among valleys and among trees within the valleys. In two valleys, 92% and 75%, respectively, of all trees were attacked, while in a third valley no trees were attacked. When infested, staminate tree only produced galls, whereas pistillate plants produced normal fruits as well as galls. Gall shape differed between male and female trees. Trees with galls tended to produce more fruits than treea without galls. We speculate that this is one of a few documented examples of an insect that induces androdioecy in an otherwise functionally dioecious plant. 相似文献
973.
This study was designed to examine the interaction of methacyline (METC) with human serum albumin (HSA) by multispectroscopy and a molecular modeling method under simulative physiological conditions. The quenching mechanism was suggested to be static quenching based on fluorescence and ultraviolet–visible (UV–Vis) spectroscopy. According to the Vant' Hoff equation, the values of enthalpy (?H) and entropy change (?S) were calculated to be ?95.29 kJ/mol and ?218.13 J/mol/K, indicating that the main driving force of the interaction between HSA and METC were hydrogen bonds and van der Waals's forces. By performing displacement measurements, the specific binding of METC in the vicinity of Sudlow's site I of HSA was clarified. An apparent distance of 3.05 nm between Trp214 and METC was obtained via the fluorescence resonance energy transfer (FRET) method. Furthermore, the binding details between METC and HSA were further confirmed by molecular docking studies, which revealed that METC was bound at subdomain IIA through multiple interactions, such as hydrophobic effect, polar forces, hydrogen bonding, etc. The results of three‐dimensional fluorescence and Fourier transform infrared (FTIR) spectroscopy showed that METC caused conformational and some microenvironmental changes in HSA and reduced the α‐helix significantly in the range of 52.3?40.4% in HSA secondary structure. Moreover, the coexistence of metal ions such as Ca2+, Al3+, Fe3+, Zn2+, Cu2+, Cr3+ and Cd2+ can decrease the binding constants of METC–HSA. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
974.
975.
Herrmann PC Gillespie JW Charboneau L Bichsel VE Paweletz CP Calvert VS Kohn EC Emmert-Buck MR Liotta LA Petricoin EF 《Proteomics》2003,3(9):1801-1810
Laser capture microdissection was combined with reverse phase protein lysate arrays to quantitatively analyze the ratios of mitochondrial encoded cytochrome c oxidase subunits to nuclear encoded cytochrome c oxidase subunits, and to correlate the ratios with malignant progression in human prostate tissue specimens. Cytochrome c oxidase subunits I-III comprise the catalytic core of the enzyme and are all synthesized from mitochondrial DNA. The remaining subunits (IV-VIII) are synthesized from cellular nuclear DNA. A significant (P < 0.001, 30/30 prostate cases) shift in the relative concentrations of nuclear encoded cytochrome c oxidase subunits IV, Vb, and VIc compared to mitochondrial encoded cytochrome c oxidase subunits I and II was noted during the progression of prostate cancer from normal epithelium through premalignant lesions to invasive carcinoma. Significantly, this shift was discovered to begin even in the premalignant stage. Reverse phase protein lysate array-based observations were corroborated with immunohistochemistry, and extended to a few human carcinomas in addition to prostate. This analysis points to a role for nuclear DNA encoded mitochondrial proteins in carcinogenesis; underscoring their potential as targets for therapy while highlighting the need for full characterization of the mitochondrial proteome. 相似文献
976.
Isolation and analyses of genes preferentially expressed during early cotton fiber development by subtractive PCR and cDNA array 总被引:29,自引:0,他引:29 下载免费PDF全文
Ji SJ Lu YC Feng JX Wei G Li J Shi YH Fu Q Liu D Luo JC Zhu YX 《Nucleic acids research》2003,31(10):2534-2543
Cotton fibers are differentiated epidermal cells originating from the outer integuments of the ovule. To identify genes involved in cotton fiber elongation, we performed subtractive PCR using cDNA prepared from 10 days post anthesis (d.p.a.) wild-type cotton fiber as tester and cDNA from a fuzzless-lintless (fl) mutant as driver. We recovered 280 independent cDNA fragments including most of the previously published cotton fiber-related genes. cDNA macroarrays showed that 172 genes were significantly up-regulated in elongating cotton fibers as confirmed by in situ hybridization in representative cases. Twenty-nine cDNAs, including a putative vacuolar (H+)-ATPase catalytic subunit, a kinesin-like calmodulin binding protein, several arabinogalactan proteins and key enzymes involved in long chain fatty acid biosynthesis, accumulated to greater than 50-fold in 10 d.p.a. fiber cells when compared to that in 0 d.p.a. ovules. Various upstream pathways, such as auxin signal transduction, the MAPK pathway and profilin- and expansin-induced cell wall loosening, were also activated during the fast fiber elongation period. This report constitutes the first systematic analysis of genes involved in cotton fiber development. Our results suggest that a concerted mechanism involving multiple cellular pathways is responsible for cotton fiber elongation. 相似文献
977.
NAD+ (nicotinamide adenine dinucleotide) is an essential cofactor involved in various biological processes including calorie restriction-mediated life span extension. Administration of nicotinamide riboside (NmR) has been shown to ameliorate deficiencies related to aberrant NAD+ metabolism in both yeast and mammalian cells. However, the biological role of endogenous NmR remains unclear. Here we demonstrate that salvaging endogenous NmR is an integral part of NAD+ metabolism. A balanced NmR salvage cycle is essential for calorie restriction-induced life span extension and stress resistance in yeast. Our results also suggest that partitioning of the pyridine nucleotide flux between the classical salvage cycle and the NmR salvage branch might be modulated by the NAD+-dependent Sir2 deacetylase. Furthermore, two novel deamidation steps leading to nicotinic acid mononucleotide and nicotinic acid riboside production are also uncovered that further underscore the complexity and flexibility of NAD+ metabolism. In addition, utilization of extracellular nicotinamide mononucleotide requires prior conversion to NmR mediated by a periplasmic phosphatase Pho5. Conversion to NmR may thus represent a strategy for the transport and assimilation of large nonpermeable NAD+ precursors. Together, our studies provide a molecular basis for how NAD+ homeostasis factors confer metabolic flexibility.The pyridine nucleotide NAD+ and its reduced form NADH are primary redox carriers involved in metabolism. In addition to serving as a coenzyme in redox reactions, NAD+ also acts as a cosubstrate in protein modification reactions including deacetylation and ADP-ribosylation (1, 2). NAD+ also plays an important role in calorie restriction (CR)2-mediated life span extension via regulating NAD+-dependent longevity factors (3, 4). CR is the most effective regimen known to extend life span in various species (5, 6). CR also ameliorates many age-related diseases such as cancer and diabetes (5). The Sir2 family proteins are NAD+-dependent protein deacetylases, which have been shown to play important roles in several CR models in yeast (3, 7) and higher eukaryotes (8, 9). By coupling the cleavage of NAD+ and deacetylation of target proteins, the Sir2 family proteins serve as a molecular link relaying the cellular energy state to the machinery of life span regulation. Mammalian Sir2 family proteins (SIRT1–7) have also been implicated in stress response, cell survival, and insulin and fat metabolism (8–10), supporting a role for SIRT proteins in age-related metabolic diseases and perhaps human aging.In eukaryotes, NAD+ is generated by de novo synthesis and by salvaging various intermediary precursors (see Fig. 1A). In yeast, the de novo pathway is mediated by Bna1–5 and Qpt1 (Bna6), which produces nicotinic acid mononucleotide (NaMN) from tryptophan (11). Because the de novo pathway requires molecular oxygen as a substrate, cells grown under anaerobic growth conditions would rely on exogenous NAD+ precursors for the nicotinamide (Nam) moiety (11). Yeast cells also salvage Nam from NAD+ consuming reactions or nicotinic acid (NA) from environment via Tna1, Pnc1, and Npt1, leading to NaMN production. NaMN is then converted to NAD+ via Nma1/2 and Qns1 (see Fig. 1A). Nma1/2 are adenylyltransferases with dual specificity toward NMN and NaMN (12, 13), and Qns1 is a glutamine-dependent NAD+ synthetase. Recent studies also showed that supplementing nicotinamide riboside (NmR) and nicotinic acid riboside (NaR) to growth medium rescued the lethality of NAD+ auxotrophic mutants (14–16). Assimilations of exogenous NmR and NaR are mainly mediated by a conserved NmR kinase (Nrk1) and three nucleosidases (Urh1, Pnp1, and Meu1). Nrk1 phosphorylates NmR and NaR to produce nicotinamide mononucleotide (NMN) and NaMN, respectively (14, 16). Urh1, Pnp1, and Meu1 catabolize NmR and NaR to generate Nam and NA (15, 16).Open in a separate windowFIGURE 1.Nicotinamide riboside (NmR) is an endogenous metabolite in yeast. A, the current model of the NAD+ biosynthesis pathways. Extracellular NmR enters the salvage cycle through Nrk1, Urh1, Pnp1, and Meu1. B, NAD+ prototrophic cells release metabolites into growth medium to cross-feed NAD+ auxotrophic cells (the npt1Δqpt1Δ and qns1Δ mutants). Micro-colonies of the NAD+ auxotrophic mutants become visible after 2-day incubation at 30 °C, which show “gradient” growth patterns descending from the side adjacent to WT. C, Nrk1 is required for NAD+ auxotrophic cells to utilize NmR. Anaerobic growth conditions (−O2) are utilized to block de novo NAD+ biosynthesis in the npt1Δ and npt1Δnrk1Δ mutants. D, Nrk1 is required to utilize cross-feeding metabolites. E, cross-feeding activity is modulated by factors in NmR metabolism. Cells defective in NmR utilization (left panel) or transport (middle panel) show increased cross-feeding in spot assays. Overexpressing Nrk1 decreases cross-feeding activity (right panel). The results show growth of the npt1Δqpt1Δ recipient (plated on YPD at a density of ∼9000 cells/cm2) supported by feeder cells (∼2 × 104 cells spotted directly onto the recipient lawn). oe, overexpression.NmR supplementation has recently been shown to be a promising strategy for prevention and treatment of certain diseases (17). For example, NmR protected neurons from axonal degeneration via functioning as a NAD+ precursor (18, 19). Given that several NmR assimilating enzymes and NmR transporters have been characterized and many are conserved from fungi to mammals (14, 15, 20–22), NmR has been speculated to be an endogenous NAD+ precursor (17, 23). Here, we provided direct evidence for endogenous NmR as an integral part of NAD+ metabolism in yeast. We also determined the biological significance of salvaging endogenous NmR and studied its role in CR-induced life span extension. Moreover, we demonstrated that the NmR salvage machinery was also required for utilizing exogenous NMN, which has recently been shown to increase NAD+ levels in mammalian cells (24). Finally, we discussed the role of Sir2 in modulating the flux of pyridine nucleotides between alternate routes. 相似文献
978.
细胞色素P450与肿瘤 总被引:4,自引:0,他引:4
本文综棕了细胞色素P450同工酶与致癌物代谢、与抗癌药的相互作用以及化的关系,并对调控P450同工酶以防治肿瘤的策略进行了论述。由于P450同工酶具有多态性、工物特异性及可诱导性的特点,在调控P450同工酶以防治肿瘤的问题上,针对不同人群、不同疾病状况及不同用药方案可能需采取抑制或诱导的不同策略。 相似文献
979.
980.