• glycoproteins
  • Deleted in Malignant Brain Tumors-1 protein (DMBT1), salivary agglutinin (DMBT1 SAG ), and lung glycoprotein-340 (DMBT1 GP340 ) are three names for glycoproteins encoded by the same DMBT1 gene. (mdpi.com)
  • fatty
  • The nutrient bioutilization and bioavailability of the modified forage were determined using NRC-2001 system in terms of total digestive nutrient (TDN), truly digestible fiber (tdNDF), non-fiber carbohydrate (tdNDF), fatty acid (tdFA), crude protein (tdCP) and bioenergy profiles (digestible energy, metabolizable energy, net energy) for ruminants. (gc.ca)
  • For a period, the scientific community debated whether or not amyloid deposits are fatty deposits or carbohydrate deposits until it was finally found (in 1859) that they are, in fact, deposits of albumoid proteinaceous material. (wikipedia.org)
  • spectroscopy
  • NMR Study By using titration, NOESY(Nuclear Overhauser Effect SpectroscopY), CIDNP experiments, the specificity and affinity of binding, association constants and equilibrium thermodynamic parameters of carbohydrate-protein binding can be studied. (wikipedia.org)
  • structural features
  • He has elucidated the specific structural features of these proteins in mycobacteria, which, among other things, have opened up avenues for structure-based inhibitor design, with the eventual objective of drug development. (wikipedia.org)
  • gene
  • Gene-silencing-induced changes in carbohydrate conformation in relation to bioenergy value and carbohydrate subfractions in modeled plant ( Medicago sativa ) with Down-Regulation of HB12 and TT8 transcription factors. (gc.ca)
  • The objectives of this study were to (1) Detect gene silencing-induced changes in carbohydrate molecular structure in an alfalfa forage ( Medicago sativa spp. (gc.ca)
  • The gene-silencing also affected carbohydrate CA4 (7.4 (NT) vs. 4.2 ( HB12 ) and 4.4% carbohydrate (CHO) ( TT8 ), p = 0.063) and CB1 fractions (5.3 (NT) vs. 2.0 ( HB12 ) and 2.6% CHO ( TT8 ), p = 0.006). (gc.ca)
  • The CHO molecular structure changes induced by RNAi gene silencing were associated with biofunctions in terms of the carbohydrate subfractions and nutrient digestion. (gc.ca)
  • genes
  • All 3 genes are expressed coordinately and their protein products are packaged together into azurophil granules during neutrophil differentiation. (wikipedia.org)
  • glycan
  • Even with the glycan ligand and the structure of the binding protein known, it is challenging to predict the structure of the complex. (mpg.de)
  • Structure determination of protein-carbohydrate complexes is particularly synergistic with approaches that define the glycan binding specificity of the protein, such as glycan microarray screening and ligand-based NMR techniques. (mpg.de)
  • legume
  • Goelema (1999) found that enthalpy change associated with the protein denaturation was highly and negatively correlated to digested undegraded protein in dairy cows in several legume seeds including faba beans, peas, lupins and soybeans. (civilica.com)
  • intermolecular
  • If most of the protein contains intermolecular hydrogen bonds it is said to be fibrillar, and the majority of its secondary structure will be beta sheets. (wikipedia.org)
  • form
  • these are called prions in which the infectious form can act as a template to convert other non-infectious proteins into infectious form. (wikipedia.org)
  • Elastases form a subfamily of serine proteases that hydrolyze many proteins in addition to elastin. (wikipedia.org)
  • tissue
  • Proteomics strategies should allow the full inventory of proteins in a tissue, an organ or an organelle at a given stage of development or in response to an external stimulus. (mdpi.com)
  • motif
  • Its bisegmented negative strand genome consists of two single-stranded RNA species: the larger segment encodes the virus polymerase (L) and a small zinc finger motif protein (Z), and the smaller segment encodes the virus nucleoprotein (NP) and glycoprotein precursor (GP-C). GP-C is post translationally cleaved into GP1 and GP2. (pubmedcentralcanada.ca)
  • This flexible conformation suggests that the protein has few structural domains, however it has been suggested that there may be several spatially segmented functional domains including a hydrophobic collagen-binding domain (rattus norvegicus residues 36-57), a hydroxyapatite-nucleating region of contiguous glutamic acid residues (rattus norvegicus residues 78-85, 155-164) and a classical integrin-binding motif (RGD) near the C-terminal (rattus norvegicus residues 288-291). (wikipedia.org)
  • specific
  • The specific systems studied by him include RecA, RuvA, uracil DNA glycosylase, single stranded DNA binding protein, ribosome recycling factor, peptidyl tRNA hydrolase, pantothenate kinase and DNA binding protein in stationary phase cells. (wikipedia.org)
  • IR spectra are specific and characteristic, which therefore can be used as fingerprints for identifying or discriminating sample conformation (Messerschmidt and Harthcock, 1988). (civilica.com)
  • What spectrum of carbohydrates is bound by a specific protein? (mpg.de)
  • outer
  • This protein degrades the outer membrane protein A (OmpA) of E. coli as well as the virulence factors of such bacteria as Shigella, Salmonella and Yersinia. (wikipedia.org)
  • distinct
  • however, identical polypeptides can fold into multiple distinct amyloid conformations. (wikipedia.org)
  • Carbohydrate-binding module family 6 (CBM6) is unusual in that is contains two substrate-binding sites, cleft A and cleft B. Cellvibrio mixtus endoglucanase 5A contains two CBM6 domains, the CBM6 domain at the C-terminus displays distinct ligand binding specificities in each of the sustrate-binding clefts. (wikipedia.org)
  • cell
  • Plant Cell Wall Proteins: A Large Body of Data, but What about Runaways? (mdpi.com)
  • Plant cell wall proteomics is a tricky field of research, since proteins are not only minor components of plant cell walls, but are also trapped in complex networks of polysaccharides with which they can interact. (mdpi.com)
  • Cell wall proteins (CWPs) are the "blue collar workers," modifying cell wall components and customizing them to confer appropriate properties to cell walls [ 6 ]. (mdpi.com)
  • Thus, a large variety of proteins are present in cell walls [ 10 ]. (mdpi.com)
  • A parallel question to your question is, why can't proteins be the MAIN component of cell membranes? (protocol-online.org)
  • All eukaryotic cells are covered in a dense layer of carbohydrates that are key to cell-cell communication, development, neurobiology and immune function. (mpg.de)