+ Site Statistics
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on Google+Follow on Google+
Follow on LinkedInFollow on LinkedIn

+ Translate

Relation between some cytological, biochemical, molecular markers and plant morphogenesis

, : Relation between some cytological, biochemical, molecular markers and plant morphogenesis. Morphogenesis in plants: molecular approaches Proceedings of a NATO Advanced Study Institute, 5-17 September 1992, Crete, Greece: 39-54

A wide range of factors, molecules and compounds can trigger cell division, cell expansion and morphogenesis in plants both in vitro and in vivo. The authors review current research, including their own, into both somatic embryogenesis and organogenesis in a range of plant systems, including carrot somatic embryos and tobacco thin cell layers.

Accession: 002477543

Submit PDF Full Text: Here

Submit PDF Full Text

No spam - Every submission is manually reviewed

Due to poor quality, we do not accept files from Researchgate

Submitted PDF Full Texts will always be free for everyone
(We only charge for PDFs that we need to acquire)

Select a PDF file:

Related references

Tran-Thanh-Van, K.G.ndy, C., 1993: Relation between some cytological, biochemical, molecular markers and plant morphologenesis. NATO ASI series Series A Life sciences53(253): 39-54

Stuber, Cw, 1992: Biochemical and molecular markers in plant breeding. Plant breeding reviews(9): 37-61

Anonymous, 1961: The morphogenesis of buckwheat in relation to its develop-mental stages Plant morphogenesis Vol 1

Kruzhilin, A.S.; Shvedskaya, Z.M.; Alpat' Eva, L.A., 1961: Morphogenesis of biennial plants in relation to the phases of their development Plant morphogenesis. A study was made under the controlled conditions of a phytotron of morphogenesis in biennial plants (carrot, celery, beet, cabbage and others). Seedlings of various varieties were vernalized at 2-3[degree] C and illuminated after growing for 2 mon...

Fevre, M.R.ugier, M., 1980: Hyphal morphogenesis of Saprolegnia cytological and biochemical effects of coumarin and glucono-delta-lactone. Experimental mycology 4(4): 343-361

Bahrman; L.G.uis J.H.riri; Guilbaud; Jestin, 2000: Genetic diversity of old french six-rowed winter barley varieties assessed with molecular, biochemical and morphological markers and its relation to BaMMV resistance. Twenty-six old French six-rowed winter barley (Hordeum vulgare L.) varieties were characterized for their reaction against barley mild mosaic virus (BaMMV). The genetic diversity of these varieties and two recent barley varieties was assessed usin...

Aschoff, A.; Jirikowski, G.F., 1998: Apoptosis: correlation of cytological changes with biochemical markers in hormone-dependent tissues. The term apoptosis, also known as programmed cell death (PCD), is used in contrast to necrotic cell death and occurs in various tissues in many different circumstances. in spite of its rather well-defined morphological features, biochemical or phy...

Millet, B., 1999: Temporal markers in plant morphogenesis. In plants and animals, time may be registered in permanent structures at all organization levels. Some examples of spatial rhythmic patterns related to plant morphogenesis are presented, including changes at the cellular and subcellular level (cas...

Zhang, X.Q.; Wang, X.P.; Jing, J.K.; Ross, K.; Hu, H.; Gustafson, J.P., 1998: Characterization of wheat-triticale doubled haploid lines by cytological and biochemical markers. Five wheat-triticale doubled haploid (DH) lines - M08, V209, DH22014-2, DH696-3-4 and M16-derived from anther culture of F1s resulting from crosses involving hexaploid or octoploid triticale X hexaploid wheat, were characterized by cytological and...

White, T.L.; Adams, W.T.; Neale, D.B., 2007: Genetic markers - morphological, biochemical and molecular markers. This chapter describes the basic properties of genetic markers and introduces some of their uses in forestry. The genetic markers covered include: (1) morphological markers; (2) biochemical markers (monoterpenes, alloenzymes and other protein mark...