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» Authors » Maryam Rahmati Ishka

Maryam Rahmati Ishka

Explore the profile of Maryam Rahmati Ishka including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 18
Citations 162
Followers 0
Related Specialties
Biology
Cell Biology
Physiology
Top 10 Co-Authors
Olena K Vatamaniuk
Jeffrey F Harper
Elizabeth Brown
Gad Miller
Hayley Sussman
Magdalena M Julkowska
Alexandra A Bennett
Norman R Groves
Linda Y Li
Nicholas J Provart
Published In
Plant Cell
Plant Physiol
Nat Plants
J Exp Bot
BMC Genomics
Affiliations
Soon will be listed here.
Recent Articles
1.
Development of a mobile, high-throughput, and low-cost image-based plant growth phenotyping system
Yu L, Sussman H, Khmelnitsky O, Rahmati Ishka M, Srinivasan A, Nelson A, et al.
Plant Physiol . 2024 May; 196(2):810-829. PMID: 38696768
Nondestructive plant phenotyping forms a key technique for unraveling molecular processes underlying plant development and response to the environment. While the emergence of high-throughput phenotyping facilities can further our understanding...
2.
Tapping into the plasticity of plant architecture for increased stress resilience
Rahmati Ishka M, Julkowska M
F1000Res . 2024 Mar; 12:1257. PMID: 38434638
Plant architecture develops post-embryonically and emerges from a dialogue between the developmental signals and environmental cues. Length and branching of the vegetative and reproductive tissues were the focus of improvement...
3.
Genetic tango: unveiling maize's endosperm filling regulation orchestrated by NAKED ENDOSPERM1, NAKED ENDOSPERM2, and OPAQUE2
Rahmati Ishka M
Plant Cell . 2023 Sep; 36(1):8-9. PMID: 37757450
No abstract available.
4.
The nuclear lamina is required for proper development and nuclear shape distortion in tomato
Blunt E, Choi J, Sussman H, Christopherson R, Keen P, Rahmati Ishka M, et al.
J Exp Bot . 2023 Jul; 74(18):5500-5513. PMID: 37503569
The nuclear lamina in plant cells is composed of plant-specific proteins, including nuclear matrix constituent proteins (NMCPs), which have been postulated to be functional analogs of lamin proteins that provide...
5.
Transcriptional regulation of SOS1 by CycC1; 1-WRKY75 complex under salt stress
Rahmati Ishka M
Plant Cell . 2023 Apr; 35(7):2436-2437. PMID: 37096820
No abstract available.
6.
Out of the blue: blue light mediates ascorbate synthesis
Rahmati Ishka M
Plant Cell . 2023 Apr; 35(7):2440-2441. PMID: 37043545
No abstract available.
7.
Information theory and machine learning illuminate large-scale metabolomic responses of Brachypodium distachyon to environmental change
Mahood E, Bennett A, Komatsu K, Kruse L, Lau V, Rahmati Ishka M, et al.
Plant J . 2023 Mar; 114(3):463-481. PMID: 36880270
Plant responses to environmental change are mediated via changes in cellular metabolomes. However, <5% of signals obtained from liquid chromatography tandem mass spectrometry (LC-MS/MS) can be identified, limiting our understanding...
8.
Loss of OPT3 function decreases phloem copper levels and impairs crosstalk between copper and iron homeostasis and shoot-to-root signaling in Arabidopsis thaliana
Chia J, Yan J, Rahmati Ishka M, Faulkner M, Simons E, Huang R, et al.
Plant Cell . 2023 Feb; 35(6):2157-2185. PMID: 36814393
Copper (Cu) and iron (Fe) are essential micronutrients that are toxic when accumulating in excess in cells. Thus, their uptake by roots is tightly regulated. While plants sense and respond...
9.
A multi-task family: Different laccase paralogs control lignin content and composition in Arabidopsis
Rahmati Ishka M
Plant Cell . 2022 Dec; 35(2):638-639. PMID: 36472077
No abstract available.
10.
Terminator: Maize KIL1 terminates fertility by inducing silk senescence
Rahmati Ishka M
Plant Cell . 2022 Jun; 34(8):2815-2816. PMID: 35666576
No abstract available.