Results 51 to 60 of about 12,672 (217)
Suberin. A component of citrus peel extracts. [PDF]
J Sci Food AgricAbstract BACKGROUND Flavanone glycosides have been traditionally recovered from citrus peels and commercialized as herbal supplements. Commercial recoveries of these citrus peel flavonoids typically involve initial water extractions, and in certain cases the removal of pectin by ion‐exchange ...
Manthey JA, Jeffries KA.
europepmc +2 more sources
Observation of Microscopic Deformation Behavior of Cork [PDF]
, 2003 Cork is a material that has many characteristics, for instance, light weight, elasticity, insulation against heat, impermeability for liquid, and so forth. There are two types of cork, the natural and the agglomerated corks.
Abe, Takeji, Sato, Takashi
core +1 more source
The MYB107 Transcription Factor Positively Regulates Suberin Biosynthesis [PDF]
Plant Physiology, 2016 Suberin, a lipophilic polymer deposited in the outer integument of the Arabidopsis (Arabidopsis thaliana) seed coat, represents an essential sealing component controlling water and solute movement and protecting seed from pathogenic infection. Although many genes responsible for suberin synthesis are identified, the regulatory components controlling ...
Mingyue Gou +6 more
openaire +2 more sources
Biological Reviews, EarlyView.ABSTRACT The ecology of forests, their losses, and terrestrial wood decomposition dynamics have been intensively studied and reviewed. In the aquatic realm, reviews have concentrated on large wood (LW) in rivers and the transition from freshwater to marine environments in the Pacific Northwest of North America. However, a comprehensive global synthesis
Jon Dickson +9 more
wiley +1 more source
Transcriptional regulation of suberin and its response to the environment
Xibei zhiwu xuebao[Objective] Suberin is a polyester type biopolymer that specifically deposits in tissues such as the endodermis, periderm, seed coat, and wound epidermis of plants.
ZHOU Yue, AN Yongping, MA Rong, WANG Pei
doaj +1 more source
Membranes, 2023 Lipid transfer proteins (LTPs) are known to be involved in suberin deposition in the Casparian bands of pea roots, thereby reinforcing apoplast barriers.
Elena Martynenko +10 more
doaj +1 more source
Roots Structure and Development of Austrobaileya scandens (Austrobaileyaceae) and Implications for Their Evolution in Angiosperms [PDF]
, 2020 Since the resolution of the ANA grade [Amborellales, Nymphaeales, Austrobaileyales] as sister to all other flowering plants, a few comparative studies of root structure have suggested that some of their anatomical traits could be of importance to ...
Bachelier, Julien B. +3 more
core +1 more source
Comprehensive DIA‐MS Proteomics of Root Basal Nodes Elucidates Mechanisms of Salt Tolerance in Rice
PROTEOMICS, EarlyView.ABSTRACT Soil salinity severely affects rice growth, yield, and quality, posing a global food security challenge. Rice is particularly vulnerable to high salinity, which restricts growth and tolerance to other stresses. To address this, breeding efforts have been made in the past, leading to the generation of multi‐stress‐tolerant rice lines.
Cheol Woo Min +8 more
wiley +1 more source
Molecular study of lipids in humic acids by sequential chemical degradation [PDF]
, 2009 Lipidy v půdě vykazují poměrně vysokou resistenci k biodegradaci, mohou proto tak zajistit informace o zdrojích organické hmoty a diagenetických procesech. Půdní organická hmota je vysoce heterogenní a vyskytují se v ní různé dynamické systémy.
Bachratá, Radka
core
Elucidating how the saprophytic fungus Aspergillus nidulans uses the plant polyester suberin as carbon source [PDF]
, 2014 Lipid polymers in plant cell walls, such as cutin and suberin, build recalcitrant hydrophobic protective barriers. Their degradation is of foremost importance for both plant pathogenic and saprophytic fungi.
Alves, Paula C +10 more
core +2 more sources