「protein S」の共起表現一覧(1語右で並び替え)

protein S

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1語右で並び替え

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  • In lipid-anchored proteins, a covalently attached fatty acid such as pal
  • For membrane proteins, a precisely-calibrated concentration of a de
  • , a well known steroid guru, and founded Next Proteins, a company which produced dietary supplements
  • To enable correct translation of the proteins, a second round of transcription has to occur
  • des the mammalian and Drosophila melanogaster proteins, a TIR domain is also found in a number of pl
  • The permeases are membrane transport proteins, a class of multipass transmembrane proteins
  • light at 260 and 280 nanometres, and aromatic proteins absorb UV light at 280 nm; a pure sample of D
  • A host of proteins accompany it including UPF1, UPF2, UPF3A, Dcp
  • These proteins account for up to half of the immune system i
  • his feedback loop does not work and misfolded proteins accumulate inside the ER, the cell commits su
  • Most Atg proteins accumulate at the PAS and generate either Cvt
  • If there is too little ER, misfolded proteins accumulate, triggering a signaling pathway be
  • alternate lower-resolution representations of proteins, accurate energy functions, and efficient sam
  • It occurs in many proteins across many species and provides considerable
  • Bcl-2 proteins act as anti- or pro-apoptotic regulators that
  • SALL proteins act as transcription factors, which means the
  • These proteins act to accelerate hydrolysis of GTP to GDP an
  • The vertebrate Cdx proteins act upstream of Hox genes.
  • Two classes of intracellular proteins act as inhibitors of G protein activation: GT
  • where he cloned cDNAs coding for cytoskeleton proteins, actin and alpha keratins.
  • The G1 CDK proteins activate the transcription factors for a vari
  • Examples of proteins activated by PtdIns(3,4,5)P3 are AKT, PDPK1,
  • exchange proteins activated by cAMP (EPAC) such as RAPGEF3, or
  • s act by sequestering translational repressor proteins, activating expression of downstream genes th
  • states is regulated by the opposite action of proteins activating the GTPase activity and that of pr
  • Other ADAM proteins, ADAM17 (also called TACE, tumor necrosis fac
  • se 2A has been shown to preferentially cleave proteins after leucine, methionine, and phenylalanine
  • Most plants have inhibitor proteins against some PGs.
  • In organisms on Earth, proteins aid in seclusion because of their individuali
  • Several proteins aid in the loading process.
  • t models biological objects such as genes and proteins, allowing simple scripts to be written to ret
  • The structure of this proteins allows it to bind to high mannose structures
  • A cell cortex is made primarily of spectrin proteins along with lesser amounts of actin microfilam
  • TD is compatible with fragmenting peptide and proteins along the backbone at the Cα-C bond.
  • Other thickening agents act on the proteins already present in a food.
  • Inhibitor of DNA-binding/differentiation proteins, also known as Id proteins comprise a family
  • Frizzled proteins also play key roles in governing cell polarit
  • This family of proteins also includes amicyanin from bacteria such as
  • Blood proteins, also called serum proteins, are proteins fou
  • Id proteins also contain the HLH-dimerization domain but
  • GAP proteins alternate between an active (GTP-bound) and i
  • ndins are one of the most commonly C-modified proteins, although this form of glycosylation appears
  • t commonly labelled molecules are antibodies, proteins, amino acids and peptides which are then used
  • that "He discovered and identified a group of proteins among them colony-stimulating factors and som
  • hydrolyzes the inositol phosphate linkage in proteins anchored by phosphatidylinositol glycans, the
  • r biology research uses an enormous number of proteins and enzymes many of which are from expression
  • to the major histocompatibility complex (MHC) proteins and form heterodimers with beta-2-microglobul
  • see MIM 602738) that mediate the transport of proteins and other cargo between the nuclear and cytop
  • ity to prevent the precipitation of denatured proteins and to increase cellular tolerance to stress.
  • ences of those interactions between and among proteins, and other molecules within a cell.
  • genes which are responsible for DNA synthesis proteins and S phase CDK proteins.
  • also is a leading researcher on dentin matrix proteins and is working on cloning phosphophoryn genes
  • of efficient chemical processes to synthesize proteins and to convert crude biomass into useful fuel
  • It is suggested that MACPF proteins and CDCs form pores in the same way (figure 1
  • atures characteristic of extracellular matrix proteins and transmembrane proteins suggests that this
  • Myosins are actin-dependent motor proteins and are categorized into conventional myosins
  • For biopolymers such as proteins and nucleic acids, the difference in absorban
  • ognized by the GGA family of clathrin adaptor proteins and accumulate in forming clathrin-coated ves
  • milar expression patterns of autophagocytotic proteins and responded equally well to addition of mac
  • genetic code, resulting in poor metabolism of proteins and nitrogen as well as high levels of ammoni
  • ore requires the accumulation of a set of Atg proteins and of class III phosphoinositide 3-kinase co
  • tabase about conformational dynamics of heavy proteins and protein assemblies.
  • d to immobilize enzymes, antibodies and other proteins and peptides through covalent attachment to t
  • evasion, including the tegument, antioxidant proteins, and defenses against host membrane attack co
  • family of Na+/K+ and H+/K+ ATPases beta chain proteins, and to the subfamily of Na+/K+ -ATPases.
  • lex non-enveloped virus with seven structural proteins and a RNA genome consisting of 10 double-stra
  • e nuclear localization signals (NLS) of NF-κB proteins and keeping them sequestered in an inactive s
  • and organic compounds (mostly carbohydrates, proteins, and lipids).
  • cts bacteria from irreversible aggregation of proteins and aids in their refolding.
  • They prevent proteins and microorganisms from attaching which preve
  • ical features that are associated with genes, proteins and their networks.
  • on technique that allows resolution of single proteins and other ampholytes from a complex mixture a
  • The N-terminus is cleaved in all of the proteins and a C-terminal extension is cleaved in some
  • ation of mass spectrometry to the analysis of proteins and other large molecules.
  • ps of each leaflet and are rich in lipids and proteins and often red in colour.
  • e lipid bilayer and as a result of binding of proteins and other biomolecules.
  • It stabilizes proteins and other cellular structures and protects th
  • 1 is inhibited by association with heat shock proteins and is therefore not active.
  • l data of large biological molecules, such as proteins and nucleic acids.
  • fers include bicarbonate and ammonia, whereas proteins and phosphate act as intracellular buffers.
  • on work in molecular dynamics simulations of proteins and other biomolecules.
  • based proteomics for the characterization of proteins and their modifications.
  • is studies of the laser Raman spectroscopy of proteins and nucleic acids opened a new field of resea
  • duced in PSI-1 to determine a large number of proteins and continue development in streamlining the
  • ng the understanding of the function of these proteins, and accelerate the development of new pharma
  • The responses to gluten proteins and polypeptide regions differs according to
  • dues restoring the positive charge to histone proteins and hence the tie between histone and DNA.
  • se hydrogen bonds have structural role in the proteins and called secondary hydrogen bonds .
  • The company also produces antifreeze proteins; and conducts research and development progra
  • It prevents amino acid incorporation into proteins and interferes with cellular use of adenosine
  • e also been shown to bind to other PDZ domain proteins and could possibly be involved in intracellul
  • Low-frequency collective motion in proteins and DNA refers to the application of statisti
  • aggregation is the aggregation of mis-folded proteins, and is thought to be responsible for many de
  • Well known metalloendopeptidases include ADAM proteins and matrix metalloproteinases.
  • r was characterized by an interest in sulfur, proteins, and especially, peptides.
  • igh in vegetables, with a large proportion of proteins and oils coming from plant sources, decreases
  • omologs 1 and 2 encode homeodomain-containing proteins and have been implicated in the control of pa
  • are mediated through IgE against other wheat proteins and other forms of gliadin.
  • 1.7% in typical proteins) and is sensitive to oxidation.
  • Incompletely processed proteins and fats can build up, leading to a dangerous
  • r RNAs that carry genetic material for making proteins, and non-coding RNAs that function in varied
  • In particular, reovirus has eight structural proteins and ten segments of dsRNA.
  • on is an active process involving contractile proteins and is calcium-dependent (Uspenskaya, 1982).
  • formation with proline-rich regions of other proteins, and its SH2 domain binds tyrosine phosphoryl
  • ation, this protein recruits multiple adaptor proteins and downstream signaling molecules into multi
  • cific genetic programs to protect their vital proteins and organelles from heat shock or hypoxia, an
  • mperature sufficiently that some fatty acids, proteins and esters precipitate out so that they are c
  • al interactions with other substances such as proteins and enzymes.
  • he concentration of a substance, particularly proteins and DNA.
  • develops technology to study the behavior of proteins and to disburse that knowledge to the scienti
  • m these analyses, atomic models of the capsid proteins and a plausible model for capsid assembly hav
  • r (CMO) of monoclonal antibodies, recombinant proteins and vaccines.
  • AF react with the nucleophilic groups in DNA, proteins and endogenous thiols like glutathione.
  • ased activation motifs (ITAM) of the receptor proteins, and subsequent recruitment and activation of
  • Sumbala is rich in proteins and a variety of dietary minerals, which are
  • collection of the transglutaminase substrate proteins and interaction partners is accessible in the
  • called 5C) is one of the major outer membrane proteins and has been shown to play an important role
  • bands containing organelles, membrane lipids, proteins, and nucleic acids.
  • expression of anti-apoptotic Bcl-2 and Mcl-1 proteins and increases protein levels of pro-apoptotic
  • might mediate the interaction with the target proteins and therefore receptor recognition.
  • ium ion channels, which are integral membrane proteins and are essential to the correct functioning
  • results in the activation of DNA replication proteins and the initiation of the G1/S transition.
  • he sequencing, synthesis, and solubilizing of proteins and peptides.
  • proteins and peptides), which have been developed to a
  • e involved in interaction with other cellular proteins and thereby providing a mechanism for cross-t
  • tents to her name relating to viral vaccines, proteins, and vectors including the IRES of EMCV.
  • e, putrescine oxidase, corticosteroid-binding proteins, and antibacterial glycoproteins.
  • separate refractometers that measure sugars, proteins, and salts in solution.
  • s that occur between the viral non-structural proteins and viral RNA and the role of cellular protei
  • elopment and GMP manufacturing of recombinant proteins and antibody drug conjugates (e.g.
  • return to Uppsala he resumed his interest in proteins, and the application of physical methods to b
  • and tryptophan, which the body needs to make proteins and niacin, but beans contain both and theref
  • wandering cells and organic compounds such as proteins and a high concentration of potassium ions wh
  • science and technology of oils, fats, oilseed proteins, and related materials.
  • Proteins, and presumably smaller molecules, can move w
  • for determining in vitro biological value of proteins and its application for non-linear optimizati
  • Medicine for his work with Dr. Elkan Bout on proteins and polypeptides and was also recognized for
  • a central domain resembling other RNA-binding proteins and containing an RNP-2-like consensus sequen
  • See also: Low-frequency collective motion in proteins and DNA
  • e third class of biopolymers, other two being proteins and nucleic acids.
  • structural and functional annotation for all proteins and genomes.
  • nformation about DNA and its interaction with proteins and molecular motors, such as Helicase and RN
  • Many naturally occurring proteins and enzymes are multimeric.
  • of interactions established by extracellular proteins and polysaccharides.
  • al motif is required for association with LSm proteins and contributes to substrate (U6) binding and
  • etion; expedited catabolism of carbohydrates, proteins, and triglycerides (to meet the increased met
  • It has been proposed that the LSm proteins and Prp24 interact both physically and functi
  • -SB, Larry pursued research on red blood cell proteins and on conducting (electroactive) polymers su
  • f calories obtained daily from carbohydrates, proteins, and fats, respectively.
  • es that manipulate the structure of substrate proteins and thereby unfold them or disassemble protei
  • The unfolded structure allows gene regulatory proteins and RNA polymerase complexes to bind to the D
  • ure and dynamics of chromatin (the complex of proteins and DNA that constitutes chromosomes) and its
  • structure of low atomic number materials like proteins and surfactants much more easily with lower f
  • the structure of a membrane-bound complex of proteins and co-factors that is essential to photosynt
  • xin family combines invertebrate gap junction proteins and their vertebrate homologs.
  • gene products are therefore called the "Mut" proteins, and are the major active components of the m
  • ects protein synthesis, up-regulating certain proteins and down-regulating others.
  • ee image) to measure "goodness of fit" inside proteins and in interactions with surrounding molecule
  • and on imperatives for the uptake of cationic proteins and peptides by mammalian cells.
  • tor that enables them to take up mannosylated proteins, and utilize fragments of them for antigen pr
  • ation, crystallization, and study of enzymes, proteins, and viruses.
  • by antibodies to any known initiator-binding proteins, and does not bind SP1.
  • cture and function of biomolecules, including proteins and lipids, which play a role in biological p
  • to the target molecule, external for membrane proteins, and internal for cytoplasmic proteins.
  • PCMB reacts with thiol groups in proteins and is therefore an inhibitor of enzymes that
  • ration chromatography is the fractionation of proteins and other water-soluble polymers, while gel p
  • of the Brassica family, and for malonation of proteins and other phytochemicals.
  • aphy system for absolute size measurements of proteins and macromolecules as they elute from the chr
  • gene plays an essential role in breaking down proteins and fats in the diet.
  • olysis of ATP as well as binding of substrate proteins and cochaperonins, such as GroES.
  • ifying possible functions of newly discovered proteins and analysis of known proteins for previously
  • applied to biological macromolecules such as proteins and RNA, but can also be used for polysacchar
  • n aqueous buffer for ESI mass spectrometry of proteins and other molecules.
  • e nucleus where it forms complexes with other proteins and acts as a transcription factor.
  • ASICs are trimeric proteins and can be made up of different combinations
  • ture and function of human histocompatibility proteins and their role in disease.
  • These hydrogen bonds have special role in the proteins and called tertiary hydrogen bonds .
  • They are derived from natural ankyrin proteins and consist of at least three, usually four o
  • comparative immunoproteomics to identify proteins and pathways modulated by a specific infectio
  • It is composed mainly of heavy fats, proteins and inactive yeast.
  • Development of small molecules targeting proteins and RNA has been performed to investigate how
  • arch is focused on four main areas: misfolded proteins and disease, intracellular membrane traffic,
  • e plasma membrane in cells where the spectrin proteins and actin microfilaments form a mesh-like str
  • exokinases, bacterial glucokinases, and other proteins, and the common structure is termed an actin
  • and beta appendage domains bind to accessory proteins and to clathrin.
  • r the N-terminus of a fraction of zinc finger proteins and in proteins that contain the Kelch motif
  • ptojanin such that it can interact with other proteins and is involved in the initiation of shallow
  • eather, as a catalyst support, to precipitate proteins and amino acids, and as a pigment stabilizer.
  • by defects in the ability of the body to use proteins and fats for energy.
  • Click on genes, proteins and metabolites below to visit Gene Wiki page
  • nd substrate; or a complex formed between two proteins and a single substrate.
  • The protein physically resembles channel proteins and is abundant in erythrocytes and renal tub
  • rge-scale commercial production of biologics ( proteins) and vaccines.
  • focal microscopy for studying the location of proteins and dynamic processes (exocytosis, endocytosi
  • ncludes RNase H, RuvC Holliday resolvase, RAG proteins, and retroviral integrases.
  • bout the biological function and evolution of proteins and protein domains.
  • Most proteins and peptides
  • • the central biochemical importance of proteins and the dominating role of genes, and in part
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