// +author:j akter +author:akter var _ajax_res = { hits: 7, first: 0, results: [ {userid:"dr.md.shaheedreza", "refid":26,"repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Shelf life of antibiotic treated rohu fish, Labeo rohita (Hamilton) under ice storage condition","year":"2013","author":"Haque, S. A., M. S. Reza, J. N. Akter and M. K. Rahman","journal":"Journal of Bangladesh Agricultural University","volume":"11","number":"2","pages":" 385-390","month":"","doi":"","pubmed":"","pdflink":"","urllink":"","abstract":"","note":"","tags":"","weight":26} , {userid:"lkabir79", "refid":"410","repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Salmonella Gallinarum in small-scale commercial layer flocks: occurrence, molecular diversity and antibiogram ","year":"2021","author":"AKMZ Haque, MR Akter, SKS Islam, J. Alam, SB Neogi, S Yamasaki and SML Kabir","journal":"Vet. Sci.","volume":"8","number":"5","pages":"71","month":"April","doi":"10.3390\/vetsci8050071","pubmed":"33922826","pdflink":"","urllink":"","abstract":"","note":"","tags":"","weight":410} , {userid:"nasircu72", "refid":110,"repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Ternary complexes of vanadium(IV) and titanium(IV)\r\nof Schiff bases as primary ligand: Synthesis,\r\nspectral characterization, biomedical applications,\r\nand molecular docking with SARS-CoV-2 Mpro","year":"2022","author":"M. N. Uddin, S. Begum, J. Akter, S. S. Ahmed, M. S. Rahman, W. Shumi","journal":"J. Chin. Chem. Soc.","volume":"69","number":"4","pages":"703","month":"","doi":"10.1002\/jccs.202100319","pubmed":"","pdflink":"","urllink":"","abstract":"","note":"","tags":"","weight":110} , {userid:"ayusuf75", "refid":15,"repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Transfistula Anorectoplasty (TFARP): Better Surgical Technique for the Management of Vestibular Fistula","year":"2012","author":"JG Khan, MA Ali, MA Yusuf, MK Islam, MA Rahaman, K Hasina, J Akter, AR Sharif, Ak Talukder, AI Ahsan.","journal":"Journal of Shaheed Suhrawardy Medical College ","volume":"4","number":"1","pages":"10-14","month":"","doi":"","pubmed":"","pdflink":"","urllink":"","abstract":"","note":"","tags":"","weight":15} , {userid:"sharif.khan", "refid":"25","repocollections":"","attachment":"","_thumb":"","articletype":"article","sectionheading":"","title":"Remote Sensed Geomorphology Of Mymensingh Terrace And Adjoining Areas, Mymensingh, Bangladesh","year":"2012","author":"S. Akter, M. J. J. Rahman, M. S. H. Khan & A. K. M. K. Alam","journal":"Bangladesh Geoscience Journal","volume":"18","number":"","pages":"43 - 58","month":"","doi":"","pubmed":"","pdflink":"","urllink":"","abstract":"Geomorphology and drainage pattern of the study area has been analyzed through visual image interpretation from SPOT Panchromatic, LANDSAT TM (B-5) and Google Earth Image. Three major geomorphic units (Madhupur Tract, Mymensingh Terrace and Old Brahmaputra River and floodplain) are identified and different geomorphic subunits (e.g; river channels, abandoned channels, natural levees, river bars, floodplains, backswamp deposits) are identified from these three images. The Madhupur Tract has been affected by uplifting, tilting and subsidence. The sediments of Madhupur Tract are highly oxidized, the sediments of Mymensingh Terrace are slightly oxidized and the sediments of the Old Brahmaputra River are loose, fresh, unconsolidated. The surface of Mymensingh Terrace has been uplifted and it stands about 2m above flood levels of the Old Brahmaputra River including its distributaries the Banar and Sutia rivers; and the nature of the floodplain indicates that the surface has been separated from fluvial processes. Facies association of the cut bank of the Old Brahmaputra River shows the overall fining upward sequence. The fining upward facies associations throughout the deposits at the cut bank of the Old Brahmaputra River consist of different distinct facies as large scale trough cross-stratified sandy facies (St), planar cross-stratified sandy facies (Sp), parallel laminated fine sandy facies (FI), rippled sand, silt and mud facies (Fsc), convolute laminated, fine sand, silt and clay facies (Fc), massive sandy (Sm) and silt and mud facies (Fm). The grain size of the Old Brahmaputra River and Mymensingh Terrace sands correspond to fine to very fine grained. ","note":"","tags":"Geomorphology, Remote sensing, Madhupur Tract, Mymensingh Terrace, Old Brahmaputra River, Bangladesh. "} , {userid:"sctr", "articletype":"article","pages":"1416-1425","author":"Galina S Bogatkevich, Anna Ludwicka-Bradley, Paul J Nietert, Tanjina Akter, Joanne van Ryn, Richard M Silver","year":"2011","title":"Antiinflammatory and antifibrotic effects of the oral direct thrombin inhibitor dabigatran etexilate in a murine model of interstitial lung disease.","month":"May","journal":"Arthritis and rheumatism","publisher":"","volume":"63","number":"5","note":"","tags":"Administration, Oral,Animals,Antithrombins,Benzimidazoles,Bleomycin,Dabigatran,Disease Models, Animal,Female,Lung Diseases, Interstitial,Mice,Mice, Inbred C57BL,Pulmonary Fibrosis,Thrombin,beta-Alanine","booktitle":"","editor":"","abstract":"Activation of the coagulation cascade leading to generation of thrombin has been documented extensively in various forms of lung injury, including that associated with systemic sclerosis. We previously demonstrated that the direct thrombin inhibitor dabigatran inhibits thrombin-induced profibrotic signaling in lung fibroblasts. This study was undertaken to test whether dabigatran etexilate attenuates lung injury in a murine model of interstitial lung disease.","address":"","school":"","issn":"1529-0131","doi":"10.1002\/art.30255","isi":"","pubmed":"21312187","key":"Bogatkevich2011","howpublished":"","urllink":"","refid":346,"weight":346} , {userid:"nazir.ismail", "articletype":"article","pages":"","author":"Adebisi Ajileye, Nataly Alvarez, Matthias Merker, Timothy M Walker, Suriya Akter, Kerstin Brown, Danesh Moradigaravand, Thomas Sch\u0102\u015bn, S\u0102\u015bnke Andres, Viola Schleusener, Shaheed V Omar, Francesc Coll, Hairong Huang, Roland Diel, Nazir Ismail, Julian Parkhill, Bouke C de Jong, Tim E A Peto, Derrick W Crook, Stefan Niemann, Jaime Robledo, E Grace Smith, Sharon J Peacock, Claudio U K\u0102\u015bser","year":"2017","title":"Some Synonymous and Nonsynonymous gyrA Mutations in Mycobacterium tuberculosis Lead to Systematic False-Positive Fluoroquinolone Resistance Results with the Hain GenoType MTBDRsl Assays","month":"","journal":"Antimicrobial agents and chemotherapy","publisher":"","volume":"61","number":"4","note":"28137812[pmid] PMC5365657[pmcid] AAC.02169-16[PII]","tags":"Hain GenoType MTBDRsl Mycobacterium tuberculosis fluoroquinolones Antitubercular Agents\/*pharmacology Biological Assay DNA Gyrase\/*genetics\/metabolism Drug Resistance, Multiple, Bacterial\/*genetics False Positive Reactions Fluoroquinolones\/*pharmacology Gene Expression Humans *Mutation Mycobacterium tuberculosis\/classification\/drug effects\/*genetics\/isolation & purification Oligonucleotide Probes\/chemistry\/metabolism Phylogeny Tuberculosis, Multidrug-Resistant\/drug therapy\/microbiology","booktitle":"","editor":"","abstract":"In this study, using the Hain GenoType MTBDRsl assays (versions 1 and 2), we found that some nonsynonymous and synonymous mutations in gyrA in Mycobacterium tuberculosis result in systematic false-resistance results to fluoroquinolones by preventing the binding of wild-type probes. Moreover, such mutations can prevent the binding of mutant probes designed for the identification of specific resistance mutations. Although these mutations are likely rare globally, they occur in approximately 7% of multidrug-resistant tuberculosis strains in some settings.","address":"","school":"","issn":"1098-6596 0066-4804","doi":"10.1128\/AAC.02169-16","isi":"","pubmed":"","key":"RN82","howpublished":"https:\/\/pubmed.ncbi.nlm.nih.gov\/28137812","urllink":"https:\/\/pubmed.ncbi.nlm.nih.gov\/28137812","refid":114,"weight":114} ] } ; ajaxResultsLoaded(_ajax_res);