Michael G Muszynski
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Explore the profile of Michael G Muszynski including associated specialties, affiliations and a list of published articles.
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13
Citations
514
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Recent Articles
1.
Uyehara A, Del Valle-Echevarria A, Hunter C, Nelissen H, Demuynck K, Cahill J, et al.
Plants (Basel)
. 2023 Aug;
12(16).
PMID: 37631225
Plant organ growth results from the combined activity of cell division and cell expansion. The co-ordination of these two processes depends on the interplay between multiple hormones that determine the...
2.
Joo K, Muszynski M, Kantar M, Wang M, He X, Del Valle Echevarria A
Front Genet
. 2021 Dec;
12:786140.
PMID: 34868276
Adopting modern gene-editing technologies for trait improvement in agriculture requires important workflow developments, yet these developments are not often discussed. Using tropical crop systems as a case study, we describe...
3.
Muszynski M, Moss-Taylor L, Chudalayandi S, Cahill J, Del Valle-Echevarria A, Alvarez-Castro I, et al.
Plant Cell
. 2020 Mar;
32(5):1501-1518.
PMID: 32205456
Leaf morphogenesis requires growth polarized along three axes-proximal-distal (P-D) axis, medial-lateral axis, and abaxial-adaxial axis. Grass leaves display a prominent P-D polarity consisting of a proximal sheath separated from the...
4.
Stephenson E, Estrada S, Meng X, Ourada J, Muszynski M, Habben J, et al.
PLoS One
. 2019 Feb;
14(2):e0203728.
PMID: 30726207
Maize originated as a tropical plant that required short days to transition from vegetative to reproductive development. ZmCCT10 [CO, CONSTANS, CO-LIKE and TIMING OF CAB1 (CCT) transcription factor family] is...
5.
Moran Lauter A, Muszynski M, Huffman R, Scott M
Front Plant Sci
. 2017 Nov;
8:1926.
PMID: 29170674
The locus of maize confers unilateral cross incompatibility, preventing cross pollination between females carrying the incompatible allele and males not carrying a corresponding compatible allele. To characterize this system at...
6.
Wolabu T, Zhang F, Niu L, Kalve S, Bhatnagar-Mathur P, Muszynski M, et al.
New Phytol
. 2016 Jan;
210(3):946-59.
PMID: 26765652
Sorghum is a typical short-day (SD) plant and its use in grain or biomass production in temperate regions depends on its flowering time control, but the underlying molecular mechanism of...
7.
Danilevskaya O, Meng X, McGonigle B, Muszynski M
Plant Signal Behav
. 2011 Aug;
6(9):1267-70.
PMID: 21847027
The transition from vegetative to reproductive development is a critical turning point in a plant’s life cycle. It is now widely accepted that a leaf-borne signal, florigen, moves via the...
8.
Meng X, Muszynski M, Danilevskaya O
Plant Cell
. 2011 Mar;
23(3):942-60.
PMID: 21441432
The mobile floral-promoting signal, florigen, is thought to consist of, in part, the FT protein named after the Arabidopsis thaliana gene FLOWERING LOCUS T. FT is transcribed and translated in...
9.
Danilevskaya O, Meng X, Selinger D, Deschamps S, Hermon P, Vansant G, et al.
Plant Physiol
. 2008 Jun;
147(4):2054-69.
PMID: 18539775
The switch from vegetative to reproductive growth is marked by the termination of vegetative development and the adoption of floral identity by the shoot apical meristem (SAM). This process is...
10.
Muszynski M, Dam T, Li B, Shirbroun D, Hou Z, Bruggemann E, et al.
Plant Physiol
. 2006 Oct;
142(4):1523-36.
PMID: 17071646
Separation of the life cycle of flowering plants into two distinct growth phases, vegetative and reproductive, is marked by the floral transition. The initial floral inductive signals are perceived in...