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Global analysis of the sugarcane microtranscriptome reveals a unique composition of small RNAs associated with axillary bud outgrowth
(2013-05-01)
Axillary bud outgrowth determines shoot architecture and is under the control of endogenous hormones and a fine-tuned gene-expression network, which probably includes small RNAs (sRNAs). Although it is well known that sRNAs ...
Global analysis of the sugarcane microtranscriptome reveals a unique composition of small RNAs associated with axillary bud outgrowth
(2013-05-01)
Axillary bud outgrowth determines shoot architecture and is under the control of endogenous hormones and a fine-tuned gene-expression network, which probably includes small RNAs (sRNAs). Although it is well known that sRNAs ...
Global analysis of the sugarcane microtranscriptome reveals a unique composition of small RNAs associated with axillary bud outgrowth
(Oxford Univ PressOxfordInglaterra, 2013)
Adequate management of defoliation post-fire would not affect the metabolic activity of axillary buds on grasses
(Finnish Zoological Botanical Publishing Board, 2019-10-19)
Controlled burning is often used to improve plant structure on rangelands adapted to fire. However, possible damage resulting from post-fire grazing to reappearing desirable plant species may be a serious issue hindering ...
Axillary bud viability and dry matter production of Poa ligularis in Patagonian grasslands
(Fundación Romulo Raggio, 2004-12)
Poa ligularis Nees is one of the dominant perennial grass species in Patagonian grasslands. This is the first field study which investigated the effects of defoliation frequency on its number of viable axillary buds, and ...
Bud viability in perennial grasses: Water stress and defoliation effects
(Society for Range Management, 2002-03)
Effects of the timing and frequency of defoliation under different levels of soil water availability were evaluated on bud metabolic activity and subsequent outgrowth in the desirable (i.e., palatable) Stipa clarazii Ball. ...
In vitro propagation of Herreria salsaparilha Martius (Herreriaceae) as affected by different sealing materials and gaseous exchanges
(Plant Cell, Tissue and Organ Culture, 2018)