Susan Sibbald scite author profile

Susan Sibbald

5Publications

68Citation Statements Received

33Citation Statements Given

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143

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Agriculture and Agri-Food Canada

Publications

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Biological Activity of thetzsGene of NopalineAgrobacterium tumefaciensGV3101 in Plant Regeneration and Genetic Transformation

Han¹,

Hunter²,

Sibbald³

et al. 2013

MPMI

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Agrobacterium tumefaciens has been widely used in plant genetic transformation. Hormone-encoding genes residing in the T-DNA region have been removed, resulting in disarmed Agrobacterium strains that are used in various transformation experiments. Nopaline Agrobacterium strains, however, carry another hormone gene, trans-zeatin synthesizing (tzs), that codes for trans-zeatin in the virulence region of the tumor-inducing plasmids. We investigated the activity and function of the tzs gene of a nopaline Agrobacterium sp. strain GV3101 in plant in vitro regeneration. Leaf explants of tobacco and Nicotiana benthamiana co-cultured with strain GV3101 exhibited active shoot regeneration in media without added plant growth regulators. On medium without plant growth regulators, transgenic shoots were also induced from explants co-cultured with GV3101 containing a binary vector. Enzyme-linked immunosorbent assay showed that cell-free extracts of Agrobacterium sp. strain GV3101 culture contained the trans-zeatin at 860 ng/liter. Polymerase chain reaction using tzs-specific primers showed that the tzs gene was present in strain GV3101 but not in other Agrobacterium strains. The study showed that the tzs gene in GV3101 was actively expressed, and that trans-zeatin produced in the Agrobacterium strain can promote plant shoot regeneration.

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Genetic transformation of Prunus domestica L. using the hpt gene coding for hygromycin resistance as the selectable marker

Tian

Canli

Wang

et al. 2009

Scientia Horticulturae

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Characterization of Prunus domestica L. in vitro regeneration via hypocotyls

Tian

Sibbald

Subramanian

et al. 2007

Scientia Horticulturae

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Engineering resistance toPlum pox virus(PPV) through the expression of PPV-specific hairpin RNAs in transgenic plants

Zhang

Rui

Sanfaçon

et al. 2006

Canadian Journal of Plant Pathology

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Regeneration of Prunus salicina Lindl (Japanese plum) from hypocotyls of mature seeds

Tian

Wen

Subramanian

et al. 2007

In Vitro Cell.Dev.Biol.-Plant

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Plant regeneration of Prunus salicina (Japanese plum) using mature seeds was studied and evaluated. Shoots were effectively induced from hypocotyl slices of mature seeds on media containing cytokinins. Among three plant growth regulators evaluated, thidiazuron (TDZ) was the most effective for shoot induction overall. Shoots were also induced using 6-benzylaminopurine (BA), but the effectiveness was reduced at low concentrations. Low regeneration was induced using kinetin. Three plum varieties were evaluated and the regeneration appeared to be genotype dependent. Induced shoots elongated, roots formed, and plantlets developed upon transfer of the shoots to the rooting medium. Primary shoots, when sub-cultured on fresh induction medium, produced multiple shoots, and such multiplication could continue for more cycles. The plantlets were transferred to soil, and the full plants were readily recovered in a greenhouse. The regeneration process was relatively fast as plants could be recovered in 4 to 5 mo. after the culture initiation.

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Susan Sibbald

Biological Activity of thetzsGene of NopalineAgrobacterium tumefaciensGV3101 in Plant Regeneration and Genetic Transformation

Genetic transformation of Prunus domestica L. using the hpt gene coding for hygromycin resistance as the selectable marker

Characterization of Prunus domestica L. in vitro regeneration via hypocotyls

Engineering resistance toPlum pox virus(PPV) through the expression of PPV-specific hairpin RNAs in transgenic plants

Regeneration of Prunus salicina Lindl (Japanese plum) from hypocotyls of mature seeds

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