Publications by authors named "Ohad Roth"
Clonal propagation of plants by induction of adventitious roots (ARs) from stem cuttings is a requisite step in breeding programs. A major barrier exists for propagating valuable plants that naturally have low capacity to form ARs. Due to the central role of auxin in organogenesis, indole-3-butyric acid is often used as part of commercial rooting mixtures, yet many recalcitrant plants do not form ARs in response to this treatment.
View Article and Find Full Text PDFAlthough strongly influenced by environmental conditions, lateral root (LR) positioning along the primary root appears to follow obediently an internal spacing mechanism dictated by auxin oscillations that prepattern the primary root, referred to as the root clock. Surprisingly, none of the hitherto characterized PIN- and ABCB-type auxin transporters seem to be involved in this LR prepatterning mechanism. Here, we characterize ABCB15, 16, 17, 18, and 22 (ABCB15-22) as novel auxin-transporting ABCBs.
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- Transport of signaling molecules is crucial for plant growth, with auxin being a key example that is regulated by transporters affecting development.
- Researchers tackled the challenge of identifying redundancies in transporter functions by creating a transportome multi-targeted forward-genetic screen using artificial-microRNAs (amiRNAs).
- They developed a library of 3000 plant lines with 1777 amiRNAs, identifying 80 lines with notable shoot growth differences, and discovered important redundant roles for the previously unexamined genes ABCB6 and ABCB20 in auxin transport.
Plants have evolved a unique and conserved developmental program that enables the conversion of leaves into floral organs. Elegant genetic and molecular work has identified key regulators of flower meristem identity. However, further understanding of flower meristem specification has been hampered by redundancy and by pleiotropic effects.
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