Elizabeth A. DiBlasio-Smith scite author profile

Little is known about the regulatory signals involved in tendon and ligament formation, and this lack of understanding has hindered attempts to develop biologically based therapies for tendon and ligament repair. Here we report that growth and differentiation factors (GDFs) 5, 6, and 7, members of the TGF-␤ gene superfamily that are most related to the bone morphogenetic proteins, induce neotendon/ligament formation when implanted at ectopic sites in vivo. Analysis of tissue induced by GDF-5, 6, or 7, containing implants by currently available morphological and molecular criteria used to characterize tendon and ligament, adds further evidence to the idea that these GDFs act as signaling molecules during embryonic tendon/ligament formation. In addition, comparative in situ localizations of the GDF-5, 6, and 7 mRNAs suggest that these molecules are important regulatory components of synovial joint morphogenesis. ( J.

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ADAMTS-8 exhibits aggrecanase activity and is expressed in human articular cartilage

Collins-Racie¹,

Flannery²,

Zeng³

et al. 2004

Matrix Biology

153

114

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[21] Thioredoxin as a fusion partner for production of soluble recombinant proteins in Escherichia coli

LaVallie¹,

Lu²,

DiBlasio-Smith³

et al. 2000

159

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LXR ligand lowers LDL cholesterol in primates, is lipid neutral in hamster, and reduces atherosclerosis in mouse

Quinet¹,

Basso²,

Halpern³

et al. 2009

Journal of Lipid Research

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This article is available online at http://www.jlr.org Supplementary key words cynomolgus monkey • dyslipidemia • fi broblast growth factor 19 • hypertriglyceridemiaAtherosclerosis is the major cause of cardiovascular disease and its incidence is on the rise due to its tight relationship to obesity and diabetes. Therapeutic interventions targeted at reducing elevated plasma low-density lipoprotein cholesterol (LDLc), the primary risk factor for development of atherosclerosis, do not eliminate cardiovascular risk particularly in several high-risk subpopulations. The statin class of drugs achieve dramatic reductions in LDLc yet reduce heart attack risk only 33% per 1.5 mmol/L reduction in LDL ( 1 ). As statins primarily limit disease progression through the inhibition of endogenous cholesterol synthesis, newer treatment modalities directed at reversing established atherosclerotic plaque are likely to provide additional benefi t and can have important clinical implications for disease management. This is exemplifi ed by the exploratory clinical studies targeting the enhancement of high-density lipoprotein ( 2 ). In this study, intravenous

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A plasmid expression system for quantitative in vivo biotinylation of thioredoxin fusion proteins in Escherichia coli

Smith¹,

Tripp²,

DiBlasio-Smith³

et al. 1998

Nucleic Acids Research

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The high affinity binding interaction of biotin to avidin or streptavidin has been used widely in biochemistry and molecular biology, often in sensitive protein detection or protein capture applications. However, in vitro chemical techniques for protein biotinylation are not always successful, with some common problems being a lack of reaction specificity, inactivation of amino acid residues critical for protein function and low levels of biotin incorporation. This report describes an improved expression system for the highly specific and quantitative in vivo biotinylation of fusion proteins. A short 'biotinylation peptide', described previously by Schatz, is linked to the N-terminus of Escherichia coli thioredoxin (TrxA) to form a new protein, called BIOTRX. The 'biotinylation peptide' serves as an in vivo substrate mimic for E. coli biotin holoenzyme synthetase (BirA), an enzyme which usually performs highly selective biotinylation of E.coli biotin carboxyl carrier protein (BCCP). A plasmid expression vector carrying the BIOTRX and birA genes arranged as a bacterial operon can be used to obtain high level production of soluble BIOTRX and BirA proteins and, under appropriate culture conditions, BIOTRX protein produced by this system is completely biotinylated. Fusions of BIOTRX to other proteins or peptides, whether these polypeptides are linked to the C-terminus or inserted into the BIOTRX active site loop, are also quantitatively biotinylated. Both types of BIOTRX fusion can be captured efficiently on avidin/streptavidin media for purification purposes or to facilitate interaction assays. We illustrate the utility of the system by measurements of antibody and soluble receptor protein binding to BIOTRX fusions immobilized on streptavidin-conjugated BIAcore chips.

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