M
Mariya V. Khodakovskaya
Researcher at University of Arkansas at Little Rock
Publications - 56
Citations - 4488
Mariya V. Khodakovskaya is an academic researcher from University of Arkansas at Little Rock. The author has contributed to research in topics: Germination & Cytokinin. The author has an hindex of 24, co-authored 51 publications receiving 3576 citations. Previous affiliations of Mariya V. Khodakovskaya include Russian Academy of Sciences & University of Arkansas.
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Journal ArticleDOI
Carbon nanotubes are able to penetrate plant seed coat and dramatically affect seed germination and plant growth.
Mariya V. Khodakovskaya,Enkeleda Dervishi,Meena Mahmood,Yang Xu,Zhongrui Li,Fumiya Watanabe,Alexandru S. Biris +6 more
TL;DR: Analytical methods indicated that the CNTs are able to penetrate the thick seed coat and support water uptake inside seeds, a process which can affect seed germination and growth of tomato seedlings.
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Carbon Nanotubes Induce Growth Enhancement of Tobacco Cells
Mariya V. Khodakovskaya,Kanishka de Silva,Alexandru S. Biris,Enkeleda Dervishi,Hector Villagarcia +4 more
TL;DR: It is demonstrated that multiwalled carbon nanotubes (MWCNTs) have the ability to enhance the growth of tobacco cell culture in a wide range of concentrations.
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Carbon nanotubes as plant growth regulators: effects on tomato growth, reproductive system, and soil microbial community.
Mariya V. Khodakovskaya,Bong-Soo Kim,Jong Nam Kim,Mohammad Alimohammadi,Enkeleda Dervishi,Thikra Mustafa,Carl E. Cernigla +6 more
TL;DR: Phylogenetic analysis indicates that Proteobacteria and Bacteroidetes are the most dominant groups in the microbial community of soil and there is not a significant affect on bacterial diversity.
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Complex genetic, photothermal, and photoacoustic analysis of nanoparticle-plant interactions
Mariya V. Khodakovskaya,Kanishka de Silva,Dmitry A. Nedosekin,Enkeleda Dervishi,Alexandru S. Biris,Evgeny V. Shashkov,Ekaterina I. Galanzha,Vladimir P. Zharov +7 more
TL;DR: It is discovered that multiwall carbon nanotubes induce previously unknown changes in gene expression in tomato leaves and roots, particularly, up-regulation of the stress-related genes, including those induced by pathogens and the water-channel LeAqp2 gene.
Journal ArticleDOI
Arabidopsis H + -PPase AVP1 Regulates Auxin-Mediated Organ Development
Jisheng Li,Haibing Yang,Wendy Ann Peer,Gregory L. Richter,Joshua J. Blakeslee,Anindita Bandyopadhyay,Boosaree Titapiwantakun,Soledad F. Undurraga,Mariya V. Khodakovskaya,Elizabeth L. Richards,Beth A. Krizek,Angus S. Murphy,Simon Gilroy,Roberto A. Gaxiola +13 more
TL;DR: It is reported that in addition to maintaining vacuolar pH, the H+-pyrophosphatase, AVP1, controls auxin transport and consequently auxin-dependent development and facilitates the auxin fluxes that regulate organogenesis.