Morphology and anatomy of mature embryos and seedlings in parasitic angiospermCuscuta japonica

Lee, Kyu Bae; Park, Jong Bum; Lee, Sukchan

doi:10.1007/bf03031032

Cited by 12 publications

(17 citation statements)

References 16 publications

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“…For example, in C. europaea it lacks both root cap and root apical meristem ( Fig. 1B and C) as observed by other authors (Lyshede 1986;Lee et al 2000;Behdarvandi et al 2015). Several days after germination this root-like organ degrades through a senescence-like process from apex towards the stem base ( Fig.…”

Section: Resultssupporting

confidence: 73%

Transient expression of green fluorescent protein in parasitic dodder as a tool for studying of cytoskeleton

Kaštier¹,

Martinčová²,

Fiala³

et al. 2017

Nova Biotechnologica Et Chimica

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Dodder (Cuscuta) species cause severe agricultural damage in many countries throughout the world. To establish strategies for control of its growth and spreading it is important to study its life cycle and survival strategies. For these efforts genetic modification would represent a powerful tool. Here we report on Agrobacteriummediated transformation of dodder using green fluorescent protein (GFP) fused to actin-binding protein as a vital marker. Since the shoot of germinating C. europaea contains a functional apical meristem and grows quickly comparing to the root-like structure, the shoot apex was used here as explant. The transgene expression was only transient, nevertheless it enabled to detect allocation of actin filaments and studying the cytoskeleton organization in dodder shoot apex. Transient expression of GFP appears to be a suitable method for studying Cuscuta development through cytoskeleton organisation that is presently largely unexplored.

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Section: Resultssupporting

confidence: 73%

Transient expression of green fluorescent protein in parasitic dodder as a tool for studying of cytoskeleton

Kaštier¹,

Martinčová²,

Fiala³

et al. 2017

Nova Biotechnologica Et Chimica

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“…Although no starch-containing plastids exist in C. japonica embryonic cells (Lee, 2006), anatomical study has revealed that numerous starch grains are present in the subapical ground meristem cells of 3-d-old dark-grown seedlings (Lee et al, 2000). This feature was ultrastructurally confirmed here ( Fig.…”

Section: Plastidssupporting

confidence: 66%

“…4 in Lee et al, 2000), it may be assumed that those stored starch grains are digested and supplied to the embryo during the germination and early-growth stages. Second, starch grains in the subapical cells of the seedling shoot may result from certain biochemical pathway(s), e.g., gluconeogenesis, by which sugars are converted from lipid and protein bodies stored in the embryo cells (Li and Ross, 1990;Eastmond et al, 2000;Rylott et al, 2003;Cornah et al, 2004).…”

Section: Plastidsmentioning

confidence: 99%

“…Most developed chloroplasts have well-organized granal thylakoids in C. pentagona seedling tips grown for up to 10 d during their pre-parasitic stage (Sherman et al, 1999). Seedling tips in Cuscuta japonica also have been examined at various growth stages (Lee et al, 2000). I-or example, the shoot subapical cells of 3-d-old '~:Corresponding author; fax +82-62-230-7363 e-mail leekb@chosun.ac.kr dark-grown seedlings and 6-d-old seedlings (grown under sunlight for an additional 3 d after that dark period) contain abundant starch-containing amyloplasts.…”

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confidence: 99%

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Ultrastructure and development of seedlings of the parasitic weedCuscuta japonica

Lee

2007

J. Plant Biol.

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Shoot subapical cells in the parasitic angiosperm Cuscuta japonica seedlings were ultrastructurally studied. Seedlings were grown for 3 d in the dark and then for an additional 3 d in sunlight. Under either lype of illumination, most cells in the primary meristem contained several vacuoles with or without electron-dense particles. These vacuoles were believed to be derived from degraded protein bodies with globoid crystals that were stored in the embryos. As growth progressed, the reserves were gradually depleted, while various cell organelles increased. This indicated that those storage reserves were utilized for seedling development and that, concurrently, cellular metabolism in the seedling cells converted from a quiescent to an active state. When seedlings were exposed to sunlight, etioplasts with prolamellar bodies developed into chloroplasts possessing thylakoids that were well-organized into grana. These observations suggest that C. japonica seedlings might exist autotmphically and photosynthesize during a free-living stage prior to parasitizing their hosts.

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“…It was then scraped with a blade until the epidermal layer was reached (Ogundpie and Olatunji, 1991;Lee et al, 2000). The tissue was then washed in clean water and temporarily mounted in glycerin.…”

Section: Stomatal Patternsmentioning

confidence: 99%

Comparative macro- and micro-morphological studies on varieties ofParthenium argentatum Gray (guayule)

Jayabalan¹,

Rajarathinam²,

Jayakumar

et al. 2001

J. Plant Biol.

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Morphology and anatomy of mature embryos and seedlings in parasitic angiospermCuscuta japonica

Cited by 12 publications

References 16 publications

Transient expression of green fluorescent protein in parasitic dodder as a tool for studying of cytoskeleton

Transient expression of green fluorescent protein in parasitic dodder as a tool for studying of cytoskeleton

Ultrastructure and development of seedlings of the parasitic weedCuscuta japonica

Comparative macro- and micro-morphological studies on varieties ofParthenium argentatum Gray (guayule)

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