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231.
Barik S Senapati SK Aparajita S Mohapatra A Rout GR 《Zeitschrift für Naturforschung. C, Journal of biosciences》2006,61(1-2):123-128
Germplasm identification and characterization is an important link between the conservation and utilization of plant genetic resources. Traditionally, species or cultivars identification has relied on morphological characters like growth habit or floral morphology like flower colour and other characteristics of the plant. Studies were undertaken for identification and determination of genetic variation within the two species of Hibiscus and 16 varieties of Hibiscus rosa-sinensis L. through random amplified polymorphic (RAPD) markers. Primer screening was made by using the DNA of variety "Prolific". Genetic analysis was made by using ten selected decamer primers. A total of 79 distinct DNA fragments ranging from 0.3 to 2.5 kb were amplified by using ten selected random decamer primers. The genetic similarity was evaluated on the basis of presence or absence of bands. The cluster analysis indicated that the 16 varieties and two species formed one cluster. The first major cluster consisted of three varieties and a second major cluster consisted of two species and 13 varieties. The genetic distance was very close within the varieties and also among the species. Thus, these RAPD markers have the potential for identification of species/varieties and characterization of genetic variation within the varieties. This is also helpful in Hibiscus breeding programs and provides a major input into conservation biology. 相似文献
232.
233.
Ryuichi Suwa Shu Fujimaki Nobuo Suzui Naoki Kawachi Satomi Ishii Koichi Sakamoto Nguyen Tran Nguyen Hirofumi Saneoka Pravat K. Mohapatra Reda E. Moghaieb Shinpei Matsuhashi Kounosuke Fujita 《Plant science》2008,175(3):210-216
Salinity stress affects photosynthate partitioning between sources and sinks of plants, but how it affects these systems is less well understood. Because sources and sinks are closely tied, any adverse effect under suboptimal conditions on one of these is often misinterpreted for an effect on the other. Carbon partitioning is indispensable for stress resistance and good plant growth. In the present study, carbon partitioning in tomato plants (Lycopersicon esculentum L. cv. Momotarou) in a saline (NaCl) environment was studied by feeding radioactive 11C and stable 13C isotopes. Pulse-chases were conducted to measure the spatial and temporal distribution of 13C. 13C was measured by a standard conventional technique, but 11C distribution was monitored using a positron-emitting tracer imaging system (PETIS). Salt stress resulted in reduced carbon translocation toward roots. The majority of the photosynthate accumulated in the leaf. We also observed that the reduction in translocation of carbon occurred well before the salt stress symptoms of reduced photosynthesis and reduced plant growth in salt-exposed plants. The effect on sink activity was also shown by a decrease in stem diameter. In addition, PETIS analysis of 11C translocation indicated that carbon translocation to roots was inhibited under salt conditions without a direct effect on leaf Na accumulation or osmotic stress. These results suggest that NaCl has direct effects on plants, inhibiting carbon partitioning within a few hours of salt exposure without inhibition of source activity. 相似文献
234.
Mohapatra BR Gould WD Dinardo O Papavinasam S Koren DW Revie RW 《Preparative biochemistry & biotechnology》2008,38(1):61-73
In order to determine the impact of immobilization on biocatalytic efficacy of sulfide oxidase, the kinetic and thermodynamic properties of native and DEAE-cellulose immobilized sulfide oxidase from Arthrobacter species FR-3 were evaluated. Immobilization increased the catalytic efficiency of sulfide oxidase by producing a lower Michaelis-Menten constant (Km) and a higher rate of catalysis (Vmax) at different temperatures. The first-order kinetic analysis of thermal denaturation demonstrated that the values of enthalpy (delta H*d) and entropy (delta S*d) of immobilized sulfide oxidase were lower than the native enzyme, confirming the thermal stabilization of sulfide oxidase by immobilization. The delta H*d and delta S*d of the immobilized enzyme at 35 degrees C were 138.07 kJ/mol and 122.04 J/K/mol, respectively. These results suggest that immobilization made the sulfide oxidase from Arthrobacter sp. FR-3 thermodynamically more efficient for catalysis of sulfide oxidation. 相似文献
235.
Combining bacterial blight resistance and Basmati quality characteristics by phenotypic and molecular marker-assisted selection in rice 总被引:1,自引:0,他引:1
Joseph M. Gopalakrishnan S. Sharma R.K. Singh V.P. Singh A.K. Singh N.K. Mohapatra T. 《Molecular breeding : new strategies in plant improvement》2004,13(4):377-387
Bacterial Blight (BB) caused by Xanthomonas oryzae pv. oryzae is a major disease of rice in tropical Asia. Since all the Basmati varieties are highly susceptible and the disease is prevalent in the entire Basmati growing region of India, BB is a severe constraint in Basmati rice production. The present study was undertaken with the objective of combining the important Basmati quality traits with resistance to BB by a combination of phenotypic and molecular marker-assisted selection (MAS). Screening of 13 near-isogenic lines of rice against four isolates of the pathogen from Basmati growing regions identified the Xa4, xa8, xa13 and Xa21 effective against all the isolates tested. Two or more of these genes in combination imparted enhanced resistance as expressed by reduced average lesion length in comparison to individual genes. The two-gene pyramid line IRBB55 carrying xa13 and Xa21 was found equally effective as three/four gene pyramid lines. The two BB resistance genes present in IRBB55 were combined with the Basmati quality traits of Pusa Basmati-1 (PB-1), the most popular high yielding Basmati rice variety used as recurrent parent. Phenotypic selection for disease resistance, agronomic and Basmati quality characteristics and marker-assisted selection for the two resistance genes were carried out in BC1F1, BC1F2 and BC1F3 generations. Background analysis using 252 polymorphic amplified fragment length polymorphism (AFLP) markers detected 80.4 to 86.7% recurrent parent alleles in BC1F3 selections. Recombinants having enhanced resistance to BB, Basmati quality and desirable agronomic traits were identified, which can either be directly developed into commercial varieties or used as immediate donors of BB resistance in Basmati breeding programs. 相似文献
236.
Summary A case of generalised infection withH. capsulatum is described in which the main stress was on the lungs and in the latter stage an ulcer in the oral cavity developed. The fungus was recovered from the sputum as well as the ulcer. 相似文献
237.
238.
Maneesh Kashyap Somnath Kandekar Ashish T. Baviskar Dipon Das Ranjan Preet Purusottam Mohapatra Shakti Ranjan Satapathy Sumit Siddharth Sankar K. Guchhait Chanakya N. Kundu Uttam C. Banerjee 《Bioorganic & medicinal chemistry letters》2013,23(4):934-938
Based on known heterocyclic topoisomerase II inhibitors and anticancer agents, various indenoindolone derivatives were predicted as potential topoisomerase II–inhibiting anticancer agents. They are hydrazones, (thio)semicarbazones, and oximes of indenoindolones, and indenoindolols. These derivatives with suitable substitutions exhibited potent specific inhibition of human DNA TopoIIα while not showing inhibition of topoisomerase I and DNA intercalation, despite the fact that parent indenoindolones are known poor/moderate inhibitors of topoisomerase II. The potent topoisomerase II inhibitor indenoindolone derivatives exhibited good anticancer activities compared to etoposide and 5-fluorouracil, and relatively low toxicity to normal cells. These derivatizations of indenoindolones were found to result in enhancement of anticancer activities. 相似文献
239.
Susovan Mohapatra Steven M. Yannone Suk-Hee Lee Robert A. Hromas Konstantin Akopiants Vijay Menon Dale A. Ramsden Lawrence F. Povirk 《DNA Repair》2013,12(6):422-432
Both Metnase and Artemis possess endonuclease activities that trim 3′ overhangs of duplex DNA. To assess the potential of these enzymes for facilitating resolution of damaged ends during double-strand break rejoining, substrates bearing a variety of normal and structurally modified 3′ overhangs were constructed, and treated either with Metnase or with Artemis plus DNA-dependent protein kinase (DNA-PK). Unlike Artemis, which trims long overhangs to 4–5 bases, cleavage by Metnase was more evenly distributed over the length of the overhang, but with significant sequence dependence. In many substrates, Metnase also induced marked cleavage in the double-stranded region within a few bases of the overhang. Like Artemis, Metnase efficiently trimmed overhangs terminated in 3′-phosphoglycolates (PGs), and in some cases the presence of 3′-PG stimulated cleavage and altered its specificity. The nonplanar base thymine glycol in a 3′ overhang severely inhibited cleavage by Metnase in the vicinity of the modified base, while Artemis was less affected. Nevertheless, thymine glycol moieties could be removed by Metnase- or Artemis-mediated cleavage at sites farther from the terminus than the lesion itself. In in vitro end-joining systems based on human cell extracts, addition of Artemis, but not Metnase, effected robust trimming of an unligatable 3′-PG overhang, resulting in a dramatic stimulation of ligase IV- and XLF-dependent end joining. Thus, while both Metnase and Artemis are biochemically capable of resolving a variety of damaged DNA ends for the repair of complex double-strand breaks, Artemis appears to act more efficiently in the context of other nonhomologous end joining proteins. 相似文献
240.