School Of Basic And Applied Sciences

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    Chromosomal location of non-hypersensitive leaf rust resistance genes in bread wheat cultivar PBW65 using microsatellite markers
    (2012) Khan, M.A.; Kamaluddin, Saini, R.G.
    Microsatellite or simple sequence repeat (SSRs) markers have been powerful tool for genetic mapping in wheat. Indian bread wheat (Triticum aestivum L.) cultivar PBW65 has shown significant level of resistance to most virulent race 77-5 of leaf rust (Puccinia triticina). It has been indicated that PBW65 expresses non-hypersensitive type of resistance against race 77-5. F2 and F3 crossing of PBW65 with WL711, a leaf rust susceptible wheat cultivar, and allelic tests with such already known genes (present in cultivars RL 6058 and HD 2009) revealed that cultivar PBW65 could be a potential source of novel nonhypersensitive leaf rust resistance genes. So far, only non-hypersensitive leaf rust resistance gene Lr34 was found to be effective under Indian conditions. Attempts to locate such durable leaf rust resistance genes in PBW65 through microsatellite markers showed 2B, 2D and 3D as critical chromosomes for PBW65. The primer Xgwm341 (3D) was found located 41.5 cM away from gene LrPBW1 in PBW65.
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    Geminin a multi task protein involved in cancer pathophysiology and developmental process: A review
    (Elsevier B.V., 2016) Kushwaha, Prem Prakash; Rapalli, Krishna Chaitanya; Kumar, Shashank
    DNA replicates in a timely manner with each cell division. Multiple proteins and factors are involved in the initiation of DNA replication including a dynamic interaction between Cdc10-dependent transcript (Cdt1) and Geminin (GMNN). A conformational change between GMNN-Cdt1 heterotrimer and heterohexamer complex is responsible for licensing or inhibition of the DNA replication. This molecular switch ensures a faithful DNA replication during each S phase of cell cycle. GMNN inhibits Cdt1-mediated minichromosome maintenance helicases (MCM) loading onto the chromatin-bound origin recognition complex (ORC) which results in the inhibition of pre-replication complex assembly. GMNN modulates DNA replication by direct binding to Cdt1, and thereby alters its stability and activity. GMNN is involved in various stages of development such as pre-implantation, germ layer formation, cell commitment and specification, maintenance of genome integrity at mid blastula transition, epithelial to mesenchymal transition during gastrulation, neural development, organogenesis and axis patterning. GMNN interacts with different proteins resulting in enhanced hematopoietic stem cell activity thereby activating the development-associated genes' transcription. GMNN expression is also associated with cancer pathophysiology and development. In this review we discussed the structure and function of GMNN in detail. Inhibitors of GMNN and their role in DNA replication, repair, cell cycle and apoptosis are reviewed. Further, we also discussed the role of GMNN in virus infected host cells. ? 2016 Elsevier B.V. and Soci?t? Fran?aise de Biochimie et Biologie Mol?culaire (SFBBM)
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    The emerging role of long non-coding RNA in gallbladder cancer pathogenesis
    (Elsevier B.V., 2017) Khandelwal, Akanksha; Malhotra, Akshay; Jain, Manju; Vasquez, Karen M.; Jain, Aklank; Khandelwal, A.; Malhotra, A.; Jain, M.; Vasquez, K.M.; Jain, A.
    Gallbladder cancer (GBC) is the most common and aggressive form of biliary tract carcinoma with an alarmingly low 5-year survival rate. Despite its high mortality rate, the underlying mechanisms of GBC pathogenesis are not completely understood. Recently, from a growing volume of literature, long non-coding RNAs (lncRNAs) have emerged as key regulators of gene expression and appear to play vital roles in many human cancers. To date, a number of lncRNAs have been implicated in GBC, but their potential roles in GBC have not been systematically examined. Thus, in this review, we critically discuss the emerging roles of lncRNAs in GBC, and the pathways involved. Specifically, we note that some lncRNAs show greater expression in T1 and T2 tumor stages compared to T3 and T4 tumor stages and that their dysregulation leads to alterations in cell cycle progression and can cause an increase in GBC cell proliferation or apoptosis. In addition, some lncRNAs control the epithelial-mesenchymal transition process, while others take part in the regulation of ERK/MAPK and Ras cancer-associated signaling pathways. We also present their potential utility in diagnosis, prognosis, and/or treatment of GBC. The overall goal of this review is to stimulate interest in the role of lncRNAs in GBC, which may open new avenues in the determination of GBC pathogenesis and may lead to the development of new preventive and therapeutic strategies for GBC. ? 2016 Elsevier B.V. and Soci?t? Fran?aise de Biochimie et Biologie Mol?culaire (SFBBM)
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    The regulatory roles of long non-coding RNAs in the development of chemoresistance in breast cancer
    (Impact Journals LLC, 2017) Malhotra, Akshay; Jain, Manju; Prakash, Hridayesh; Vasquez, Karen M.; Jain, Aklank; Malhotra, A.; Jain, M.; Prakash, H.; Vasquez, K.M.; Jain, A.
    Chemoresistance is one of the major hurdles in the treatment of breast cancer, which limits the effect of both targeted and conventional therapies in clinical settings. Therefore, understanding the mechanisms underpinning resistance is paramount for developing strategies to circumvent resistance in breast cancer patients. Several published reports have indicated that lncRNAs play a dynamic role in the regulation of both intrinsic and acquired chemoresistance through a variety of mechanisms that endow cells with a drug-resistant phenotype. Although a number of lncRNAs have been implicated in chemoresistance of breast cancer, their mechanistic roles have not been systematically reviewed. Thus, here we present a detailed review on the latest research findings and discoveries on the mechanisms of acquisition of chemoresistance in breast cancer related to lncRNAs, and how lncRNAs take part in various cancer signalling pathways involved in breast cancer cells. Knowledge obtained from this review could assist in the development of new strategies to avoid or reverse drug resistance in breast cancer chemotherapy. ? 2017 Malhotra et al.
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    Chloroplast DNA phylogeography of holy basil (Ocimum tenuiflorum) in Indian subcontinent
    (2014) Bast, Felix; Rani, Pooja; Meena, Devendra
    Ocimum tenuiflorum L., holy basil "Tulsi", is an important medicinal plant that is being grown and traditionally revered throughout Indian Subcontinent for thousands of years; however, DNA sequence-based genetic diversity of this aromatic herb is not yet known. In this report, we present our studies on the phylogeography of this species using trnL-trnF intergenic spacer of plastid genome as the DNA barcode for isolates from Indian subcontinent. Our pairwise distance analyses indicated that genetic heterogeneity of isolates remained quite low, with overall mean nucleotide p-distance of 5?10-4. However, our sensitive phylogenetic analysis using maximum likelihood framework was able to reveal subtle intraspecific molecular evolution of this species within the subcontinent. All isolates except that from North-Central India formed a distinct phylogenetic clade, notwithstanding low bootstrap support and collapse of the clade in Bayesian Inference. North-Central isolates occupied more basal position compared to other isolates, which is suggestive of its evolutionarily primitive status. Indian isolates formed a monophyletic and well-supported clade within O. tenuiflorum clade, which indicates a distinct haplotype. Given the vast geographical area of more than 3 million km 2 encompassing many exclusive biogeographical and ecological zones, relatively low rate of evolution of this herb at this locus in India is particularly interesting. ? 2014 Felix Bast et al.
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    DNA barcoding of a new record of epi-endophytic green algae Ulvella leptochaete (Ulvellaceae, Chlorophyta) in India
    (Springer India, 2014) Bast, Felix; Bhushan, S.; John, A.A.
    Epi-endophytic green algae comprise one of the most diverse and phylogenetically primitive groups of green algae and are considered to be ubiquitous in the world's oceans; however, no reports of these algae exist from India. Here we report the serendipitous discovery of Ulvella growing on intertidal green algae Cladophora glomerata and benthic red algae Laurencia obtusa collected from India. DNA barcodes at nuclear ribosomal DNA Internal Transcriber Spacer (nrDNA ITS) 1 and 2 regions for Indian isolates from the west and east coasts have been generated for the first time. Based on morphology and DNA barcoding, isolates were identified as Ulvella leptochaete. Phylogenetic reconstruction of concatenated dataset using Maximum Likelihood method differentiated Indian isolates from other accessions of this alga available in Genbank, albeit with low bootstrap support. Monophyly of Ulvella leptochaete was obvious in both of our phylogenetic analyses. With this first report of epi-endophytic algae from Indian territorial waters, the dire need to catalogue its cryptic diversity is highlighted and avenues of future research are discussed. ? 2014 Indian Academy of Sciences.
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    In-vitro anti-mutagenic activity of Asparagus racemosus: An ayurvedic medicinal plant
    (Academic Journals Inc., 2013) Singh, Ramit; Kaur, Rajbir; Arora, Saroj; Jaitak, Vikas
    Asparagus racemosus is a plant traditionaly used in epilepsy, as a brain tonic, cardiac disorders, hypertension, habitual abortions, weakness of the uterus, excessive bleeding during menstruation. The current study evaluated the antimutagenic pottential of methanolic (RME) and aqueous methanolic extract (RAE) extracted from A. racemosus. Ames assay was used to acess the antimutagenic potential of RME and RAE (2.5x103, 1.0x103, 0.5x103, 0.25x103, 0.10x103 and 0.01x103 ?g 0.1 mL plate-1) that was added with mutagenic activation of TA98 and TA100 strain of Salmonella typhimurium. A. racemosus extract RME and RAE have been found to have effective in the inhibition of mutation induced by NPD and sodium azide. Among the two extracts, RAE showed maximum inhibition of 49.2% followed by RME having inhibition of 40.63% in Co-incubation mode. Current study indicated that A. racemosus can be used as a new source of anti-mutagenic. ? 2013 Academic Journals Inc.