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GlyCosmos PubAnnotations

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

Displaying entries **676 - 700** of **24862** in total

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Title ▼	Authors	PubMed ID	Source	Publication Year
Two closely related forms of UDP-GlcNAc: alpha6-D-mannoside beta1,2-N-acetylglucosaminyltransferase II occur in the clawed frog Xenopus laevis.	Mucha J Svoboda B Kappel S Strasser R Bencur P Fröhwein U Schachter H Mach L Glössl J	12815230	Glycoconj J	2002
Two cell surface proteins bind the sponge Microciona prolifera aggregation factor.	Varner JA Burger MM Kaufman JF	3372540	J Biol Chem	1988
Two categories of mammalian galactose-binding receptors distinguished by glycan array profiling.	Coombs PJ Taylor ME Drickamer K	16670103	Glycobiology	2006
Two bacterial glycosphingolipid synthases responsible for the synthesis of glucuronosylceramide and α-galactosylceramide.	Okino N Li M Qu Q Nakagawa T Hayashi Y Matsumoto M Ishibashi Y Ito M	32518167	J Biol Chem	2020
Two asialoglycoprotein receptor polypeptides in human hepatoma cells.	Bischoff J Lodish HF	3040719	J Biol Chem	1987
Two approaches to the synthesis of 3-beta-D-glucopyranosyl-D-glucitol.	Kuszmann J Medgyes G Boros S	15388355	Carbohydr Res	2004
Two alternative translation mechanisms are responsible for the expression of the HCV ARFP/F/core+1 coding open reading frame.	Vassilaki N Mavromara P	12874283	J Biol Chem	2003
Two Putative Polysaccharide Deacetylases Are Required for Osmotic Stability and Cell Shape Maintenance in Bacillus anthracis.	Arnaouteli S Giastas P Andreou A Tzanodaskalaki M Aldridge C Tzartos SJ Vollmer W Eliopoulos E Bouriotis V	25825488	J Biol Chem	2015
Two Novel Glycoside Hydrolases Responsible for the Catabolism of Cyclobis-(1→6)-α-nigerosyl.	Tagami T Miyano E Sadahiro J Okuyama M Iwasaki T Kimura A	27302067	J Biol Chem	2016
Two NOTCH1 O-fucose sites have opposing functions in mouse retinal angiogenesis.	LoPilato RK Kroeger H Mohan SK Lauderdale JD Grimsey N Haltiwanger RS	37329502	Glycobiology	2023
Two N-terminally truncated variants of human β-galactoside α2,6 sialyltransferase I with distinct properties for in vitro protein glycosylation.	Luley-Goedl C Schmoelzer K Thomann M Malik S Greif M Ribitsch D Jung C Sobek H Engel A Mueller R Schwab H Nidetzky B	27102286	Glycobiology	2016
Two N-acetylglucosaminyltransferases catalyze the biosynthesis of heparan sulfate.	Fritz TA Gabb MM Wei G Esko JD	7961837	J Biol Chem	1994
Two Golgi-resident 3'-Phosphoadenosine 5'-phosphosulfate transporters play distinct roles in heparan sulfate modifications and embryonic and larval development in Caenorhabditis elegans.	Dejima K Murata D Mizuguchi S Nomura KH Izumikawa T Kitagawa H Gengyo-Ando K Yoshina S Ichimiya T Nishihara S Mitani S Nomura K	20529843	J Biol Chem	2010
Two CACGTG motifs with proper spacing dictate the carbohydrate regulation of hepatic gene transcription.	Shih HM Liu Z Towle HC	7665621	J Biol Chem	1995
Twists and turns of the cation-dependent mannose 6-phosphate receptor. Ligand-bound versus ligand-free receptor.	Olson LJ Zhang J Dahms NM Kim JJ	11786557	J Biol Chem	2002
Twin hydroxymethyluracil-A base pair steps define the binding site for the DNA-binding protein TF1.	Grove A Figueiredo ML Galeone A Mayol L Geiduschek EP	9148920	J Biol Chem	1997
Turnover rates of blood glucose in normal dogs during hyperglycemia induced by glucose or glucagon.	REICHARD GA FRIEDMANN B MAASS AR WEINHOUSE S	13502408	J Biol Chem	1958
Turnover of the plasma membrane proteins of hepatoma tissue culture cells.	Tweto J Doyle D	175063	J Biol Chem	1976
Turnover of the cell wall peptidoglycan of Lactobacillus acidophilus. The presence of a fraction immune to turnover.	Daneo-Moore L Coyette J Sayare M Boothby D Shockman GD	803503	J Biol Chem	1975
Turnover of the catalytic subunit of Na,K-ATPase in HTC cells.	Karin NJ Cook JS	3015930	J Biol Chem	1986
Turnover of plasma membrane proteins in rat hepatoma cells and primary cultures of rat hepatocytes.	Chu FF Doyle D	3972818	J Biol Chem	1985
Turnover of heparan sulfate proteoglycans from substratum adhesion sites of murine fibroblasts.	Lark MW Culp LA	6231282	J Biol Chem	1984
Turnover of heparan sulfate proteoglycan in human colon carcinoma cells. A quantitative biochemical and autoradiographic study.	Iozzo RV	2948961	J Biol Chem	1987
Turnover of heparan sulfate depends on 2-O-sulfation of uronic acids.	Bai X Bame KJ Habuchi H Kimata K Esko JD	9287321	J Biol Chem	1997
Turnover of excess hemoglobin alpha chains in beta-thalassemic cells is ATP-dependent.	Shaeffer JR	6195159	J Biol Chem	1983

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