James E Rookes
Overview
Explore the profile of James E Rookes including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
192
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Recent Articles
1.
Tanwar N, Mahto B, Rookes J, Cahill D, Bansal K, Lenka S
3 Biotech
. 2024 Mar;
14(4):120.
PMID: 38545123
Supplementary Information: The online version contains supplementary material available at 10.1007/s13205-024-03954-3.
2.
Tanwar N, Rookes J, Cahill D, Lenka S
Mol Biotechnol
. 2023 Mar;
65(11):1923-1934.
PMID: 36884112
The carotenoid pathway in plants has been altered through metabolic engineering to enhance their nutritional value and generate keto-carotenoids, which are widely sought after in the food, feed, and human...
3.
Tanwar N, Arya S, Rookes J, Cahill D, Lenka S, Bansal K
Crit Rev Biotechnol
. 2022 Jul;
43(7):1001-1018.
PMID: 35815847
Addressing nutritional deficiencies in food crops through biofortification is a sustainable approach to tackling malnutrition. Biofortification is continuously being attempted through conventional breeding as well as through various plant biotechnological...
4.
Arya S, Rookes J, Cahill D, Lenka S
Int J Biol Macromol
. 2022 Jun;
214:632-641.
PMID: 35760163
Productivity enhancement approaches, such as elicitation can overcome the limitations of low metabolite(s) yield in in vitro plant cell culture platforms. Application of biotic/abiotic elicitors triggers molecular responses that lead...
5.
Arya S, Rookes J, Cahill D, Lenka S
Front Bioeng Biotechnol
. 2022 Apr;
10:849464.
PMID: 35449594
Increased usage of gold nanoparticles (AuNPs) in biomedicine, biosensing, diagnostics and cosmetics has undoubtedly facilitated accidental and unintentional release of AuNPs into specific microenvironments. This is raising serious questions concerning...
6.
Arya S, Mahto B, Sengar M, Rookes J, Cahill D, Lenka S
Mol Biotechnol
. 2022 Feb;
64(8):861-872.
PMID: 35192168
Vanillin production by metabolic engineering of proprietary microbial strains has gained impetus due to increasing consumer demand for naturally derived products. Here, we demonstrate the use of rice cell cultures...
7.
Arya S, Lenka S, Cahill D, Rookes J
Bioessays
. 2021 Oct;
43(11):e2100081.
PMID: 34608646
Plant cell culture systems have become an attractive and sustainable approach to produce high-value and commercially significant metabolites under controlled conditions. Strategies involving elicitor supplementation into plant cell culture media...
8.
Lu X, Sun D, Zhang X, Hu H, Kong L, Rookes J, et al.
Plant Physiol Biochem
. 2020 Oct;
156:566-577.
PMID: 33065377
Mesoporous silica nanoparticles (MSNs) of 50 nm diameter particle size with a pore size of approximately 14.7 nm were functionalized with amino groups (Am-MSNs) and the effects of exposure to...
9.
Arya S, Rookes J, Cahill D, Lenka S
Biotechnol Adv
. 2020 Sep;
45:107635.
PMID: 32976930
Plant cell suspension culture (PCSC) has emerged as a viable technology to produce plant specialized metabolites (PSM). While Taxol® and ginsenoside are two examples of successfully commercialized PCSC-derived PSM, widespread...
10.
Agarwal A, Kaul V, Faggian R, Rookes J, Ludwig-M Ller J, Cahill D
Funct Plant Biol
. 2020 Jun;
38(6):462-478.
PMID: 32480901
Microarray analysis was used to investigate changes in host gene expression during the primary stages of the interaction between the susceptible plant Arabidopsis thaliana (L.) Heynh ecotype Col-0 and the...