John E Mullet
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Explore the profile of John E Mullet including associated specialties, affiliations and a list of published articles.
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48
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1886
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Recent Articles
1.
Koleva D, Liu M, Dusak B, Ghosh S, Krogh C, Hellebek I, et al.
Physiol Plant
. 2025 Jan;
177(1):e70029.
PMID: 39749417
Cytochrome P450s of the CYP79 family catalyze two N-hydroxylation reactions, converting a selected number of amino acids into the corresponding oximes. The sorghum genome (Sorghum bicolor) harbours nine CYP79A encoding...
2.
Chemelewski R, McKinley B, Finlayson S, Mullet J
Front Plant Sci
. 2023 Nov;
14:1227859.
PMID: 37936930
Bioenergy sorghum is a drought-tolerant high-biomass C4 grass targeted for production on annual cropland marginal for food crops due primarily to abiotic constraints. To better understand the overall contribution of...
3.
McKinley B, Thakran M, Zemelis-Durfee S, Huang X, Brandizzi F, Rooney W, et al.
Front Plant Sci
. 2022 Dec;
13:1062264.
PMID: 36570942
Bioenergy sorghum hybrids are being developed with enhanced drought tolerance and high levels of stem sugars. Raffinose family oligosaccharides (RFOs) contribute to plant environmental stress tolerance, sugar storage, transport, and...
4.
Bagnall G, Koonjoo N, Altobelli S, Conradi M, Fukushima E, Kuethe D, et al.
Geoderma
. 2022 Dec;
370.
PMID: 36452276
The development of a robust method to non-invasively visualize root morphology in natural soils has been hampered by the opaque, physical, and structural properties of soils. In this work we...
5.
Borrell A, Wong A, George-Jaeggli B, van Oosterom E, Mace E, Godwin I, et al.
J Exp Bot
. 2022 Aug;
73(19):6711-6726.
PMID: 35961690
The stay-green trait is recognized as a key drought adaptation mechanism in cereals worldwide. Stay-green sorghum plants exhibit delayed senescence of leaves and stems, leading to prolonged growth, a reduced...
6.
Flynn C, Stoian R, Weers B, Mullet J, Thomasson J, Alexander D, et al.
Opt Express
. 2022 Apr;
30(7):10614-10632.
PMID: 35473024
A field-ready, fiber-based high spatial sampling snapshot imaging spectrometer was developed for applications such as environmental monitoring and smart farming. The system achieves video rate frame transfer and exposure times...
7.
Gleadow R, McKinley B, Blomstedt C, Lamb A, Moller B, Mullet J
Planta
. 2021 Nov;
254(6):119.
PMID: 34762174
Developmental and organ-specific expression of genes in dhurrin biosynthesis, bio-activation, and recycling offers dynamic metabolic responses optimizing growth and defence responses in Sorghum. Plant defence models evaluate the costs and...
8.
Yu K, McKinley B, Rooney W, Mullet J
Sci Rep
. 2021 Jan;
11(1):46.
PMID: 33420129
The stems of bioenergy sorghum hybrids at harvest are > 4 m long, contain > 40 internodes and account for ~ 80% of harvested biomass. In this study, bioenergy sorghum...
9.
Oliver J, Fan M, McKinley B, Zemelis-Durfee S, Brandizzi F, Wilkerson C, et al.
Plant J
. 2020 Nov;
105(4):1053-1071.
PMID: 33211340
Stems of bioenergy sorghum (Sorghum bicolor L. Moench.), a drought-tolerant C4 grass, contain up to 50 nodes and internodes of varying length that span 4-5 m and account for approximately...
10.
Kebrom T, McKinley B, Mullet J
Plant Direct
. 2020 Jul;
4(6):e00235.
PMID: 32607464
Stem internodes of bioenergy sorghum inbred R.07020 are longer at high plant density (shade) than at low plant density (control). Initially, the youngest newly-formed subapical stem internodes of shade-treated and...