GlyCosmos PubAnnotations

Recent publication annotations of glycans, cell types, and proteins, from PubAnnotation.

Displaying entries 20551 - 20575 of 24862 in total
Title ▲ Authors PubMed ID Source Publication Year
Substitution at Pro385 of GLUT1 perturbs the glucose transport function by reducing conformational flexibility.
  • Tamori Y
  • Hashiramoto M
  • Clark AE
  • Mori H
  • Muraoka A
  • Kadowaki T
  • Holman GD
  • Kasuga M
8300630 J Biol Chem 1994
Substitution of arginine for Leu444 in the reactive site of heparin cofactor II enhances the rate of thrombin inhibition.
  • Derechin VM
  • Blinder MA
  • Tollefsen DM
2138609 J Biol Chem 1990
Substitution of arginine for histidine at position 209 in the alpha-subunit of the human insulin receptor. A mutation that impairs receptor dimerization and transport of receptors to the cell surface.
  • Kadowaki T
  • Kadowaki H
  • Accili D
  • Yazaki Y
  • Taylor SI
1657953 J Biol Chem 1991
Substitution of glutamine for arginine 1131. A newly identified mutation in the catalytic loop of the tyrosine kinase domain of the human insulin receptor.
  • Kishimoto M
  • Hashiramoto M
  • Yonezawa K
  • Shii K
  • Kazumi T
  • Kasuga M
7512563 J Biol Chem 1994
Substitution of leucine for tryptophan 412 does not abolish cytochalasin B labeling but markedly decreases the intrinsic activity of GLUT1 glucose transporter.
  • Katagiri H
  • Asano T
  • Shibasaki Y
  • Lin JL
  • Tsukuda K
  • Ishihara H
  • Akanuma Y
  • Takaku F
  • Oka Y
2019601 J Biol Chem 1991
Substitution of putative half-cystine residues in heparin-binding fibroblast growth factor receptors. Loss of binding activity in both two and three loop isoforms.
  • Hou J
  • Kan M
  • Wang F
  • Xu JM
  • Nakahara M
  • McBride G
  • McKeehan K
  • McKeehan WL
1325450 J Biol Chem 1992
Substitution of specific amino acids in insulin-like growth factor (IGF) binding protein 5 alters heparin binding and its change in affinity for IGF-I response to heparin.
  • Arai T
  • Clarke J
  • Parker A
  • Busby W Jr
  • Nam T
  • Clemmons DR
8626396 J Biol Chem 1996
Substitution of the N-glycan function in glycosyltransferases by specific amino acids: ST3Gal-V as a model enzyme.
  • Uemura S
  • Kurose T
  • Suzuki T
  • Yoshida S
  • Ito M
  • Saito M
  • Horiuchi M
  • Inagaki F
  • Igarashi Y
  • Inokuchi J
16306051 Glycobiology 2006
Substitution of tyrosine 293 of GLUT1 locks the transporter into an outward facing conformation.
  • Mori H
  • Hashiramoto M
  • Clark AE
  • Yang J
  • Muraoka A
  • Tamori Y
  • Kasuga M
  • Holman GD
8157690 J Biol Chem 1994
Substitution of valine for leucine 305 in factor VIIa increases the intrinsic enzymatic activity.
  • Persson E
  • Bak H
  • Olsen OH
11389142 J Biol Chem 2001
Substitutions in PBP2b from β-Lactam-resistant Streptococcus pneumoniae Have Different Effects on Enzymatic Activity and Drug Reactivity.
  • Calvez P
  • Breukink E
  • Roper DI
  • Dib M
  • Contreras-Martel C
  • Zapun A
28062575 J Biol Chem 2017
Substrate and donor specificity of glycosyl transferases.
  • Ernst B
  • Oehrlein R
10612415 Glycoconj J 1999
Substrate and metal ion promiscuity in mannosylglycerate synthase.
  • Nielsen MM
  • Suits MD
  • Yang M
  • Barry CS
  • Martinez-Fleites C
  • Tailford LE
  • Flint JE
  • Dumon C
  • Davis BG
  • Gilbert HJ
  • Davies GJ
21288903 J Biol Chem 2011
Substrate and product specificity of Arthrobacter sialophilus neuraminidase.
  • Kessler J
  • Heck J
  • Tanenbaum SW
  • Flashner M
7068676 J Biol Chem 1982
Substrate binding and catalytic mechanism of a barley beta-D-Glucosidase/(1,4)-beta-D-glucan exohydrolase.
  • Hrmova M
  • MacGregor EA
  • Biely P
  • Stewart RJ
  • Fincher GB
9556600 J Biol Chem 1998
Substrate binding by human apurinic/apyrimidinic endonuclease indicates a Briggs-Haldane mechanism.
  • Strauss PR
  • Beard WA
  • Patterson TA
  • Wilson SH
8995436 J Biol Chem 1997
Substrate binding versus escape dynamics in a pH-affected fungal beta-glucosidase revealed by molecular dynamics simulations.
  • Solhtalab M
  • Flannelly DF
  • Aristilde L
30579119 Carbohydr Res 2019
Substrate inhibition with glucose oxidase.
  • Nicol MJ
  • Duke FR
5924651 J Biol Chem 1966
Substrate recognition and hydrolysis by a family 50 exo-β-agarase, Aga50D, from the marine bacterium Saccharophagus degradans.
  • Pluvinage B
  • Hehemann JH
  • Boraston AB
23921382 J Biol Chem 2013
Substrate recognition and hydrolysis by a fungal xyloglucan-specific family 12 hydrolase.
  • Powlowski J
  • Mahajan S
  • Schapira M
  • Master ER
19433323 Carbohydr Res 2009
Substrate recognition and proton coupling by a bacterial member of solute carrier family 17.
  • Batarni S
  • Nayak N
  • Chang A
  • Li F
  • Hareendranath S
  • Zhou L
  • Xu H
  • Stroud R
  • Eriksen J
  • Edwards RH
36965620 J Biol Chem 2023
Substrate recognition at the cytoplasmic and extracellular binding site of the lactose transport protein of Streptococcus thermophilus.
  • Veenhoff LM
  • Poolman B
10559198 J Biol Chem 1999
Substrate recognition by UDP-N-acetyl-alpha-D-galactosamine: polypeptide n-acetyl-alpha-D-galactosaminyltransferase. Effects of chain length and disulphide bonding of synthetic peptide substrates.
  • Hughes RC
  • Bradbury AF
  • Smyth DG
2484027 Carbohydr Res 1988
Substrate recognition by UDP-galactose and CMP-sialic acid transporters. Different sets of transmembrane helices are utilized for the specific recognition of UDP-galactose and CMP-sialic acid.
  • Aoki K
  • Ishida N
  • Kawakita M
11279205 J Biol Chem 2001
Substrate recognition by amyloglucosidase: evaluation of conformationally biased isomaltosides.
  • Palcic MM
  • Skrydstrup T
  • Bock K
  • Le N
  • Lemieux RU
8143293 Carbohydr Res 1993

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