2 edition of ultracytology of latex vessels in Hevea brasiliensis found in the catalog.
ultracytology of latex vessels in Hevea brasiliensis
J. B. Gomez
Includes bibliographical references.
|Other titles||Latex vessels in Hevea brasiliensis.|
|Statement||J.B. Gomez, G.F.J. Moir.|
|Series||MRRDB monograph ;, no. 4|
|Contributions||Moir, G. F. J.|
|LC Classifications||SB291.H4 G663 1979|
|The Physical Object|
|Pagination||xi, 48 p. :|
|Number of Pages||48|
|LC Control Number||82151595|
Dictionnaire les mots de lhistoire
Bill to promote an international association for the care of the needy orphans of the war
Alaskas role in the national oceanographic program.
Reforms in Chinese social assistance & community services in comparative perspective
response of plant species to low-level trampling stress on Hurricane Island, Maine
Avian infectious laryngotracheitis
1975 revised constitution of the Peoples Republic of China
Additional Physical Format: Online version: Gomez, J.B. Ultracytology of latex vessels in Hevea brasiliensis. Kuala Lumpur, Malaysia: Malaysian Rubber Research and Development Board, . Natural rubber latex (NRL) is a white and milky solution that exudes from Hevea brasiliensis bark when perforated, and it has been appointed as a new promising biomaterial.
Metabolic routes affecting rubber biosynthesis in Hevea brasiliensis latex Article (PDF Available) in Journal of Experimental Botany 63(5).
Purchase Natural Rubber, Volume 23 - 1st Edition. Print Book & E-Book. ISBNSearch in this book series. Natural Rubber Biology, Cultivation and Technology. Edited by M.R. Sethuraj, N.M. Mathew. Vol Pages () Download full volume. Previous volume. Next volume.
Actions for selected chapters. Select all / Deselect all. Download PDFs Export citations. Preface Acknowledgements Contributors Historical development of the world rubber industry The outlook for natural rubber production and consumption The genus Hevea - botanical aspects Anatomy and ultracytology of latex vessels Germplasm resources and genetic improvement Climatic requirements Metabolism of the laticiferous system and its biochemical regulation Yield components in Hevea.
J.B. Gomez. Comparative ultracytology of young and mature latex vessels in Hevea brasiliensis; Proceedings of the International Rubber Conference (Kuala Lumpur: Rubber Research Institute ); p. 43– Google Scholar. Latex of Hevea plants contains about 30% poly(cis-1,4-isoprene) and is harvested by a “tapping” procedure after the bark of the plants is notched diagonally, which yields to ml latex resin within 3 h.
Such “tapping” is usually carried out every 2 to 3 days, yielding up to. Eat This Much is an automatic meal planner that creates customized meal plans to meet your diet goals.
The generator works for every kind of diet, including weight. An easy diet for losing weight and. Abstract: The papers of James Frederick Bonner ( – ), Caltech alumnus (PhD, ) and professor of biology, His papers include a large correspondence section with colleagues and organizations worldwide, as well as writings and talks, papers about his consultancy activities, scientific and technical files and biographical material.
Arokiaraj, P. Genetic transformation of hevea brasiliensis / P. Arokoaraj, Hafsah Jaafar and H.Y. Yeang. Kuala Lumpur: Malaysian Rubber Board, ISBN (pbk) Abdul Khalil Shawkataly.
Gentian dan komposit lignoselulosik / Abdul Khalil Shawkataly, Rozman Hj. Din. Pulau Pinang: Penerbit Universiti Sains Malaysia, ISBN Unlike Hevea latex (Slater, ).guayule latex does not elicit an immediate or Type I hypersensitivity reaction in human test subjects (Schrank et al., ).
This is due to the absence of allergenic proteins analogous to those in Hevea latex (Siler and Cornish, a; Siler et al., ). Découvrez et achetez Natural Rubber.
Livraison en Europe à 1 centime seulement. Introduction Natural rubber latex obtained from latex vessels of rubber tree (Hevea brasiliensis) is a colloidal dispersion of rubber particles in an aqueous medium.
Along with rubber particles, latex contains non-rubber ingredients like proteins, phospholipids, carbohydrates, and inorganic cations .