Results 241 to 250 of about 557,103 (299)
Self‐Healing and Stretchable Synaptic Transistor
Advanced Functional Materials, EarlyView.A self‐healing stretchable synaptic transistor (3S‐T) is realized using a p‐PVDF‐HFP‐DBP/PDMS‐MPU‐IU bilayer as gate insulator, where dipole‐dipole interaction enhances polarization to achieve a large memory window. Leveraging its neuronal biomimicry, the synaptic transistor demonstrates electrically compatibility with the biological brain. Furthermore,
Hyongsuk Choo +10 more
wiley +1 more source
Computational Modeling Meets 3D Bioprinting: Emerging Synergies in Cardiovascular Disease Modeling
Advanced Healthcare Materials, EarlyView.Emerging advances in three‐dimensional bioprinting and computational modeling are reshaping cardiovascular (CV) research by enabling more realistic, patient‐specific tissue platforms. This review surveys cutting‐edge approaches that merge biomimetic CV constructs with computational simulations to overcome the limitations of traditional models, improve ...
Tanmay Mukherjee +7 more
wiley +1 more source
Advanced Healthcare Materials, EarlyView.We measure the cell‐specific responses of administering infusible ECM (iECM) in acute myocardial infarction (MI) across multiple timepoints. Using single‐nucleus RNA sequencing and spatial transcriptomics, we measure macrophage activation, fibroblast remodeling, increased vascular development, lymphangiogenesis, cardioprotection, and neurogenesis ...
Joshua M. Mesfin +18 more
wiley +1 more source
Structurally diverse calloses/β-1,3-glucans in plant cell wall microdomains
Amsbury S +16 more
europepmc +1 more source
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Nature Reviews Molecular Cell Biology, 2005
Plant cells encase themselves within a complex polysaccharide wall, which constitutes the raw material that is used to manufacture textiles, paper, lumber, films, thickeners and other products. The plant cell wall is also the primary source of cellulose, the most abundant and useful biopolymer on the Earth.
Daniel J Cosgrove
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Plant cells encase themselves within a complex polysaccharide wall, which constitutes the raw material that is used to manufacture textiles, paper, lumber, films, thickeners and other products. The plant cell wall is also the primary source of cellulose, the most abundant and useful biopolymer on the Earth.
Daniel J Cosgrove
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Cell, 1989
Joseph E. Varner and Liang-Shiou Lin Institute of Molecular Biology Academia Sinica Nankang, Taipei 11529 Republic of China and Department of Biology Washington University St. Louis, Missouri 63130 Introduction Several hundred, perhaps a few thousand, genes are re- quired uniquely for the specification of the enzymes, lec- tins, structural proteins ...
J E, Varner, L S, Lin
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Joseph E. Varner and Liang-Shiou Lin Institute of Molecular Biology Academia Sinica Nankang, Taipei 11529 Republic of China and Department of Biology Washington University St. Louis, Missouri 63130 Introduction Several hundred, perhaps a few thousand, genes are re- quired uniquely for the specification of the enzymes, lec- tins, structural proteins ...
J E, Varner, L S, Lin
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Composition of plant cell walls
Zeitschrift f�r Lebensmittel-Untersuchung und -Forschung, 1995The present study reviews the most recent research published (starting approximately in the 1980s) on the composition of plant cell walls, with a description of the polysaccharides contained in the microfibrillar and amorphous phases: cellulose, hemicellulose and pectic substances, as well as the other components: lignin, proteins and enzymes ...
Heredia Moreno, Antonia +2 more
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Biochemical Journal, 2012
Conversion of plant cell walls to ethanol constitutes second generation bioethanol production. The process consists of several steps: biomass selection/genetic modification, physiochemical pretreatment, enzymatic saccharification, fermentation and separation.
Douglas B, Jordan +7 more
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Conversion of plant cell walls to ethanol constitutes second generation bioethanol production. The process consists of several steps: biomass selection/genetic modification, physiochemical pretreatment, enzymatic saccharification, fermentation and separation.
Douglas B, Jordan +7 more
openaire +2 more sources
Plant cell expansion: Scaling the wall
Current Opinion in Plant Biology, 1998The regulation of plant cell size and shape is poorly understood at the molecular level. Recently, two loci required for normal cell expansion in Arabidopsis were cloned. They both encode enzymes involved in the construction of the cell wall. These studies are the first promising examples of the use of Arabidopsis molecular genetics for the study of ...
Nicol, F., Höfte, Herman
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Annual Review of Plant Physiology and Plant Molecular Biology, 1998
▪ Abstract The nature of cell wall proteins is as varied as the many functions of plant cell walls. With the exception of glycine-rich proteins, all are glycosylated and contain hydroxyproline (Hyp). Again excepting glycine-rich proteins, they also contain highly repetitive sequences that can be shared between them. The majority of cell wall proteins
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▪ Abstract The nature of cell wall proteins is as varied as the many functions of plant cell walls. With the exception of glycine-rich proteins, all are glycosylated and contain hydroxyproline (Hyp). Again excepting glycine-rich proteins, they also contain highly repetitive sequences that can be shared between them. The majority of cell wall proteins
openaire +2 more sources