David M Braun
Affiliations: | University of Missouri - Columbia, Columbia, MO, United States |
Website:
http://biology.missouri.edu/people/?person=132Google:
"David Meyer Braun" OR "David M Braun"Bio:
https://biology.missouri.edu/news/david-braun-celebrated-for-research-contributions/
https://books.google.com/books?id=dZIvAQAAIAAJ
Parents
Sign in to add mentor| John Charles Walker | grad student | 1997 | University of Missouri | |
| (Maize receptor-like protein kinase signal transduction and function) | ||||
| Michael Freeling | post-doc | UC Berkeley | ||
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Publications
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| Babst BA, Braun DM, Karve AA, et al. (2022) Sugar loading is not required for phloem sap flow in maize plants. Nature Plants. 8: 171-180 |
| Julius BT, McCubbin TJ, Mertz RA, et al. (2021) Maize Brittle Stalk2-Like3, encoding a COBRA protein, functions in cell wall formation and carbohydrate partitioning. The Plant Cell |
| Huang J, Lu G, Liu L, et al. (2020) The kernel size-related quantitative trait locus qKW9 encodes a pentatricopeptide repeat protein that affects photosynthesis and grain filling. Plant Physiology |
| Khangura RS, Venkata BP, Marla SR, et al. (2019) Interaction Between Induced and Natural Variation at Delays Reproductive Maturity in Maize. G3 (Bethesda, Md.) |
| Tran TM, McCubbin TJ, Bihmidine S, et al. (2019) Maize Carbohydrate partitioning defective33 encodes a MCTP protein and functions in sucrose export from leaves. Molecular Plant |
| Voothuluru P, Braun DM, Boyer JS. (2018) An in vivo imaging assay detects spatial variability in glucose release from plant roots. Plant Physiology |
| Julius BT, Slewinski TL, Frank Baker R, et al. (2018) Maize carbohydrate partitioning defective1 Impacts Carbohydrate Distribution, Callose Accumulation, and Phloem Function. Journal of Experimental Botany |
| Tran TM, Braun DM. (2017) An Inexpensive, Easy-to-Use, and Highly Customizable Growth Chamber Optimized for Growing Large Plants. Current Protocols in Plant Biology. 2: 299-317 |
| Julius BT, Leach KA, Tran TM, et al. (2017) Sugar Transporters in Plants: New Insights and Discoveries. Plant & Cell Physiology. 58: 1442-1460 |
| Xu J, Tran T, Padilla Marcia CS, et al. (2017) Superoxide-responsive gene expression in Arabidopsis thaliana and Zea mays. Plant Physiology and Biochemistry : Ppb. 117: 51-60 |