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プロフィール詳細
プロジェクトを作成
★★★★★
☆☆☆☆☆
Dr. Manish T.に依頼
India

Freelance Bioinformatician with a experience of more than 5 years and a sound knowledge of Biology

プロフィール概要
専門分野
サービス
Writing Clinical Trial Documentation, Technical Writing, Newswriting
Research Market Research, Feasibility Study, Fact Checking, Gray Literature Search, Systematic Literature Review, Secondary Data Collection
Consulting Scientific and Technical Consulting
Data & AI Statistical Analysis, Data Visualization
Product Development Formulation
職務経験

Research Associate

University of Wisconsin-Madison

4月 2022 - 現在

Investigator (Research Faculty)

University of Florida

11月 2020 - 現在

Postdoc Fellow

Kansas State University

2月 2021 - 4月 2022

Postdoc fellow

University of Florida

11月 2020 - 2月 2021

Postdoc Fellow

National Institute for Plant Genome Research

8月 2020 - 11月 2020

Research Associate-III

NIPGR

7月 2020 - 11月 2020

学歴

Ph.D.

NIPGR

8月 2013 - 8月 2020

Ph.D.

National Institute of Plant Genome Research

8月 2013 - 12月 2019

M.Sc. (Department of Biotechnology)

Visva-Bharati

8月 2009 - 9月 2011

認定資格
  • 認定資格の詳細は未入力です。
出版物
JOURNAL ARTICLE
Manish Tiwari, Gurparsad Singh Suri (2023). Phytosulfokine-δ: A Small Peptide, but a Big Player in Symbiosis Gene Regulation . International Journal of Plant Biology.
Manish Tiwari, Ritesh Kumar, Senthil Subramanian, Colleen J. Doherty, Krishna Jagadish(2023). Auxin–cytokinin interplay shapes root functionality under low-temperature stress . Trends in Plant Science. Elsevier {BV}
Gurparsad Singh Suri, Dr. Manish Tiwari (2023). Phytosulfokine-δ: A Small Peptide, but a Big Player in Symbiosis Gene Regulation . International Journal of Plant Biology.
Gurparsad Singh Suri, Dr. Manish Tiwari (2022). Frontline Warrior microRNA167: A Battle of Survival . International Journal of Plant Biology.
Manish Tiwari, Ritesh Kumar, Rajeev N. Bahuguna, Madan Pal, Viswanathan Chinnusamy, Sheshshayee Sreeman, Raveendran Muthurajan, S. V. Krishna Jagadish (2022). Walking through crossroads–rice responses to heat and biotic stress interactions . Theoretical and Applied Genetics.
Manish Tiwari and Baljinder Singh and Doohong Min and S. V. Krishna Jagadish(2022). Omics Path to Increasing Productivity in Less-Studied Crops Under Changing Climate—Lentil a Case Study . Frontiers in Plant Science. 13. Frontiers Media {SA}
Manish Tiwari, Ritesh Kumar, Doohong Min, S. V. Krishna Jagadish (2022). Genetic and molecular mechanisms underlying root architecture and function under heat stress—A hidden story . Plant, Cell & Environment.
Manish Tiwari and Ritesh Kumar and Doohong Min and S. V. Krishna Jagadish(2022). Genetic and molecular mechanisms underlying root architecture and function under heat stress—A hidden story . Plant, Cell & Environment. Wiley
Nathan T. Hein and Somayanda M. Impa and Dan Wagner and Raju Bheemanahalli and Ritesh Kumar and Manish Tiwari and P. V. Vara Prasad and Michael Tilley and Xiaorong Wu and Mitchell Neilsen and S. V. Krishna Jagadish(2022). Grain micronutrient composition and yield components in field‐grown wheat are negatively impacted by high night‐time temperature . Cereal Chemistry. Wiley
Jagadish Rane and Ajay Kumar Singh and Manish Tiwari and P. V. Vara Prasad and S. V. Krishna Jagadish(2022). Effective Use of Water in Crop Plants in Dryland Agriculture: Implications of Reactive Oxygen Species and Antioxidative System . Frontiers in Plant Science. 12. Frontiers Media {SA}
Manish Tiwari and Vimal Pandey and Baljinder Singh and Manisha Yadav and Sabhyata Bhatia(2021). Evolutionary and expression dynamics of LRR-RLKs and functional establishment of KLAVIER homolog in shoot mediated regulation of AON in chickpea symbiosis . Genomics. 113. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 4313--4326. Elsevier {BV}
Manish Tiwari, Baljinder Singh, Manisha Yadav, Vimal Pandey, Sabhyata Bhatia (2021). High throughput identification of miRNAs reveal novel interacting targets regulating chickpea-rhizobia symbiosis . Environmental and Experimental Botany.
(2021). Comprehensive analysis of structural, functional, and evolutionary dynamics of Leucine Rich Repeats-RLKs in Thinopyrum elongatum. International Journal of Biological Macromolecules.
Manish Tiwari, Divya Mishra, Gurparsad Singh Suri, Gurleen Kaur(2021). Comparative insight into the genomic landscape of SARS‐CoV‐2 and identification of mutations associated with the origin of infection and diversity . Journal of Medical Virology. 93. (4). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 2406--2419. Wiley
Manish Tiwari, Divya Mishra(2020). Investigating the genomic landscape of novel coronavirus (2019-nCoV) to identify non-synonymous mutations for use in diagnosis and drug design . Journal of Clinical Virology. 128. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 104441. Elsevier {BV}
(2019). Expression profiling of miRNAs indicates crosstalk between phytohormonal response and rhizobial infection in chickpea.
(2017). Identification and comparative analysis of microRNAs from tomato varieties showing contrasting response to ToLCV infections. Physiology and Molecular Biology of Plants.
(2014). Phytochemical contents, antimicrobial and antioxidative activities of Solanum sisymbriifolium. Journal of applied pharmaceutical sciences.
BOOK CHAPTER
(2020). The role of key transcription factors for cold tolerance in plants . TRANSCRIPTION FACTORS FOR ABIOTIC STRESS TOLERANCE IN PLANTS.
(2020). Comprehending lncRNA-mediated gene regulation during abiotic stresses and reproductive development in legumes. Long Noncoding RNAs in Plants: Roles in Development and Stress.
(2018). Legume breeding for Fungal Resistance: A lesson to Learn.
(2017). Transcriptome Analysis in Chickpea (Cicer arietinum L.): Applications in Study of Gene Expression, Non-Coding RNA Prediction, and Molecular Marker Development.
Barley, Disease Resistance, and Molecular Breeding Approaches.
PREPRINT
(2020). Identification of miRNAs and their corresponding mRNA targets from chickpea root infected with M. ciceri and functional characterization of candidate miRNAs by overexpression in chickpea roots. bioRxiv.