EurekaMag.com logo
+ Site Statistics
References:
52,725,316
Abstracts:
28,411,598
+ 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

A proton nuclear magnetic resonance study of the physical changes in growing plant cell walls


Planta 90(2): 227-230
A proton nuclear magnetic resonance study of the physical changes in growing plant cell walls
Changes in broadline proton nuclear magnetic resonance parameters of cell walls during growth of etiolated hypocotyls of bean (Phaseolus vulgaris L.) indicate that cell wall structure becomes more rigid during development. Most of the changes are completed in the first 6 cm below cotyledon insertion and are correlated with increased restriction of proton movements in regions of dense polymer packing.

Accession: 002287524

DOI: 10.1007/bf00196615

Download PDF Full Text: A proton nuclear magnetic resonance study of the physical changes in growing plant cell walls



Related references

Use of chemical fractionation and proton nuclear magnetic resonance to probe the physical structure of the primary plant cell wall. Plant Physiology 94(1): 174-178, 1990

Estimation of Polymer Rigidity in Cell Walls of Growing and Nongrowing Celery Collenchyma by Solid-State Nuclear Magnetic Resonance in Vivo. Plant Physiology 115(2): 587-592, 2002

Estimation of polymer rigidity in cell walls of growing and nongrowing celery collenchyma by solid-state nuclear magnetic resonance in vivo. Plant physiology 115(2): 587-592, 1997

Heteronuclear nuclear magnetic resonance studies of cobalt corrinoids: 5. The structure of glutathionylcobalamin: A proton and carbon-13 two-dimensional nuclear magnetic resonance study at 600 MHz. Biochemistry 32(33): 8421-8428, 1993

Investigation of extracts of plant cell cultures by proton nuclear magnetic resonance spectroscopy. Phytochemical Analysis 2(4): 155-162, 1991

Investigation of the physical structure of the primary plant cell wall by proton magnetic resonance. Biochemistry 27(5): 1467-1473, 1988

A proton-nuclear-magnetic-resonance study at 500 MHz on Megasphaera elsdenii flavodoxin. A study on the stability, proton exchange and the assignment of some resonance lines. European Journal of Biochemistry 140(2): 311-318, 1984

Nuclear magnetic resonance study of the binding of phosphoenolpyruvate and phosphoenol-alpha-ketobutyrate to manganese pyruvate kinase. Temperature, frequency,and monovalent cation dependence of water proton nuclear magnetic resonance relaxation rates. Journal of Biological Chemistry 248(18): 6443-6449, 1973

Nuclear magnetic resonance study of spatial relationships between chemical components in wood cell walls. Holzforschung 46(3): 205-210, 1992

Lithium-7 nuclear magnetic resonance, water proton nuclear magnetic resonance, and gadolinium electron paramagnetic resonance studies of the sarcoplasmic reticulum calcium ion transport adenosine triphosphatase. Biochemistry 18(22): 4876-4885, 1979