Your search keyword '"Shoot branching"' showing total 4 results

1. Trehalose 6-phosphate is involved in triggering axillary bud outgrowth in garden pea (Pisum sativum L.)

Author

Fichtner, Franziska, Barbier, Francois F., Feil, Regina, Watanabe, Mutsumi, Annunziata, Maria Grazia, Chabikwa, Tinashe G., Höfgen, Rainer, Stitt, Mark, Beveridge, Christine A., Lunn, John E., Fichtner, Franziska, Barbier, Francois F., Feil, Regina, Watanabe, Mutsumi, Annunziata, Maria Grazia, Chabikwa, Tinashe G., Höfgen, Rainer, Stitt, Mark, Beveridge, Christine A., and Lunn, John E.

Abstract

Trehalose 6-phosphate (Tre6P) is a signal of sucrose availability in plants, and has been implicated in the regulation of shoot branching by the abnormal branching phenotypes of Arabidopsis (Arabidopsis thaliana) and maize (Zea mays) mutants with altered Tre6P metabolism. Decapitation of garden pea (Pisum sativum) plants has been proposed to release the dormancy of axillary buds lower down the stem due to changes in sucrose supply, and we hypothesized that this response is mediated by Tre6P. Decapitation led to a rapid and sustained rise in Tre6P levels in axillary buds, coinciding with the onset of bud outgrowth. This response was suppressed by simultaneous defoliation that restricts the supply of sucrose to axillary buds in decapitated plants. Decapitation also led to a rise in amino acid levels in buds, but a fall in phosphoenolpyruvate and 2-oxoglutarate. Supplying sucrose to stem node explants in vitro triggered a concentration-dependent increase in the Tre6P content of the buds that was highly correlated with their rate of outgrowth. These data show that changes in bud Tre6P levels are correlated with initiation of bud outgrowth following decapitation, suggesting that Tre6P is involved in the release of bud dormancy by sucrose. Tre6P might also be linked to a reconfiguration of carbon and nitrogen metabolism to support the subsequent growth of the bud into a new shoot.

Published

2023

2. Abscisic acid influences tillering by modulation of strigolactones in barley

Author

Wang, Hongwen, Chen, Wanxin, Eggert, Kai, Charnikhova, Tatsiana, Bouwmeester, Harro, Schweizer, Patrick, Hajirezaei, Mohammad R., Seiler, Christiane, Sreenivasulu, Nese, von Wirén, Nicolaus, Kuhlmann, Markus, Wang, Hongwen, Chen, Wanxin, Eggert, Kai, Charnikhova, Tatsiana, Bouwmeester, Harro, Schweizer, Patrick, Hajirezaei, Mohammad R., Seiler, Christiane, Sreenivasulu, Nese, von Wirén, Nicolaus, and Kuhlmann, Markus

Abstract

Strigolactones (SLs) represent a class of plant hormones that are involved in inhibiting shoot branching and in promoting abiotic stress responses. There is evidence that the biosynthetic pathways of SLs and abscisic acid (ABA) are functionally connected. However, little is known about the mechanisms underlying the interaction of SLs and ABA, and the relevance of this interaction for shoot architecture. Based on sequence homology, four genes (HvD27, HvMAX1, HvCCD7, and HvCCD8) involved in SL biosynthesis were identified in barley and functionally verified by complementation of Arabidopsis mutants or by virus-induced gene silencing. To investigate the influence of ABA on SLs, two transgenic lines accumulating ABA as a result of RNAi-mediated down-regulation of HvABA 8'-hydroxylase 1 and 3 were employed. LC-MS/MS analysis confirmed higher ABA levels in root and stem base tissues in these transgenic lines. Both lines showed enhanced tiller formation and lower concentrations of 5-deoxystrigol in root exudates, which was detected for the first time as a naturally occurring SL in barley. Lower expression levels of HvD27, HvMAX1, HvCCD7, and HvCCD8 indicated that ABA suppresses SL biosynthesis, leading to enhanced tiller formation in barley.

Published

2018

3. Trehalose 6-phosphate is involved in triggering axillary bud outgrowth in garden pea (Pisum sativum L.)

Author

Fichtner, Franziska, Barbier, Francois F., Feil, Regina, Watanabe, Mutsumi, Annunziata, Maria Grazia, Chabikwa, Tinashe G., Höfgen, Rainer, Stitt, Mark, Beveridge, Christine A., Lunn, John E., Fichtner, Franziska, Barbier, Francois F., Feil, Regina, Watanabe, Mutsumi, Annunziata, Maria Grazia, Chabikwa, Tinashe G., Höfgen, Rainer, Stitt, Mark, Beveridge, Christine A., and Lunn, John E.

Abstract

Trehalose 6-phosphate (Tre6P) is a signal of sucrose availability in plants, and has been implicated in the regulation of shoot branching by the abnormal branching phenotypes of Arabidopsis (Arabidopsis thaliana) and maize (Zea mays) mutants with altered Tre6P metabolism. Decapitation of garden pea (Pisum sativum) plants has been proposed to release the dormancy of axillary buds lower down the stem due to changes in sucrose supply, and we hypothesized that this response is mediated by Tre6P. Decapitation led to a rapid and sustained rise in Tre6P levels in axillary buds, coinciding with the onset of bud outgrowth. This response was suppressed by simultaneous defoliation that restricts the supply of sucrose to axillary buds in decapitated plants. Decapitation also led to a rise in amino acid levels in buds, but a fall in phosphoenolpyruvate and 2-oxoglutarate. Supplying sucrose to stem node explants in vitro triggered a concentration-dependent increase in the Tre6P content of the buds that was highly correlated with their rate of outgrowth. These data show that changes in bud Tre6P levels are correlated with initiation of bud outgrowth following decapitation, suggesting that Tre6P is involved in the release of bud dormancy by sucrose. Tre6P might also be linked to a reconfiguration of carbon and nitrogen metabolism to support the subsequent growth of the bud into a new shoot.

Published

2017

4. Trehalose 6-phosphate is involved in triggering axillary bud outgrowth in garden pea (Pisum sativum L.)

Author

Fichtner, Franziska, 25749, Barbier, Francois F., 25750, Feil, Regina, 25751, Watanabe, Mutsumi, 25752, Annunziata, Maria Grazia, 25753, Chabikwa, Tinashe G., 25754, Hofgen, Rainer, 25755, Stitt, Mark, 25756, Beveridge, Christine A., 25757, Lunn, John E., 25758, Fichtner, Franziska, 25749, Barbier, Francois F., 25750, Feil, Regina, 25751, Watanabe, Mutsumi, 25752, Annunziata, Maria Grazia, 25753, Chabikwa, Tinashe G., 25754, Hofgen, Rainer, 25755, Stitt, Mark, 25756, Beveridge, Christine A., 25757, Lunn, John E., and 25758

Abstract

Trehalose 6-phosphate (Tre6P) is a signal of sucrose availability in plants, and has been implicated in the regulation of shoot branching by the abnormal branching phenotypes of Arabidopsis (Arabidopsis thaliana) and maize (Zea mays) mutants with altered Tre6P metabolism. Decapitation of garden pea (Pisum sativum) plants has been proposed to release the dormancy of axillary buds lower down the stem due to changes in sucrose supply, and we hypothesized that this response is mediated by Tre6P. Decapitation led to a rapid and sustained rise in Tre6P levels in axillary buds, coinciding with the onset of bud outgrowth. This response was suppressed by simultaneous defoliation that restricts the supply of sucrose to axillary buds in decapitated plants. Decapitation also led to a rise in amino acid levels in buds, but a fall in phosphoenolpyruvate and 2-oxoglutarate. Supplying sucrose to stem node explants in vitro triggered a concentration-dependent increase in the Tre6P content of the buds that was highly correlated with their rate of outgrowth. These data show that changes in bud Tre6P levels are correlated with initiation of bud outgrowth following decapitation, suggesting that Tre6P is involved in the release of bud dormancy by sucrose. Tre6P might also be linked to a reconfiguration of carbon and nitrogen metabolism to support the subsequent growth of the bud into a new shoot., journal article

Published

2017