Sara Nahuath-Dzib scite author profile

Sara Nahuath-Dzib

2Publications

46Citation Statements Received

90Citation Statements Given

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Affiliations

Instituto Tecnológico de Mérida

Publications

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Overexpression of WUSCHEL in C. chinense causes ectopic morphogenesis

Solís-Ramos

González-Estrada

Nahuath-Dzib

et al. 2008

Plant Cell Tiss Organ Cult

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Capsicum chinense is a recalcitrant species for in vitro morphogenesis, and up to date there is no efficient system for genetic transformation and regeneration of this species via somatic embryogenesis. Here, we carried out an in vitro transformation of C. chinense via Agrobacterium tumefaciens co-cultivation with a system that expresses the heterologous gene WUSCHEL from Arabidopsis thaliana. WUSCHEL has been shown to promote the transition from vegetative to embryogenic state when overexpressed. We tested if the expression of WUSCHEL in C. chinense would promote an embryogenic response in this species. After 15 days of induction, the segments of transformed stems begun to form globular structures, suggesting that heterologus WUSCHEL was active and involved in the process of morphogenesis.

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Indirect somatic embryogenesis and morphohistological analysis in Capsicum chinense

et al. 2010

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Capsicum chinense is recalcitrant in in vitro morphogenesis. No efficient, reproducible somatic embryogenesis regeneration system exists for this species, impeding regeneration from transformed cells. An indirect somatic embryogenesis protocol is developed using mature C. chinense zygotic embryo segments (ZES). The ZES cultured in semi-solid Murashige-Skoog (MS) medium supplemented with 8.9 µM naphthaleneacetic acid, 11.4 µM indoleacetic acid and 8.9 µM 6-benzylaminopurine, developed an embryogenic callus and 8% of the calli developed somatic embryos. Torpedo-stage somatic embryos were detached from the callus and subcultured in semi-solid MS medium without growth regulators, producing a 75% conversion rate to plantlets with well-formed root tissue. Histological analysis showed the developed structures to have no vascular connection with the callus and to be bipolar, confirming that this protocol induced formation of viable somatic embryos from mature C. chinense ZES. All acclimated plantlets survived under greenhouse conditions. This protocol will facilitate regeneration of genetically transformed plants using either biolistics or Agrobacterium tumefaciens approach.

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