Searched for: in-biosketch:yes
person:frangb01
Human complex-forming glycoprotein, heterogeneous in charge: the primary structure around the cysteine residues and characterization of a disulfide bridge
Mendez E; Grubb AO; Lopez C; Frangione B; Franklin EC
PMID: 6174078
ISSN: 0003-9861
CID: 9634
KIIIB IS THE PREDOMINANT LIGHT CHAIN IN THE HUMAN MONOCLONAL IGM AUTOIMMUNE-RESPONSE [Meeting Abstract]
Ledford, DK; Franklin, EC; Goni, F; Pizzolato, M; Frangione, B
ISI:A1982NJ70702917
ISSN: 0009-9279
CID: 30444
PREFERENTIAL ASSOCIATION OF THE V-LAMBDA-VI SUBGROUP OF HUMAN LIGHT-CHAINS WITH AMYLOIDOSIS AL [Meeting Abstract]
Solomon, A; Frangione, B; Franklin, EC
ISI:A1982NJ70702113
ISSN: 0009-9279
CID: 30431
HUMAN-PLASMA FIBRONECTIN (FN) BINDING DOMAINS FOR COLLAGEN, HEPARIN, AND FIBRIN LOCALIZED BY AMINO-ACID-SEQUENCE DETERMINATION [Meeting Abstract]
Gold, LI; Frangione, B; Pearlstein, E
ISI:A1982PN30200488
ISSN: 0021-9525
CID: 30349
KIIIB IS THE PREDOMINANT LIGHT CHAIN IN THE HUMAN MONOCLONAL IGM AUTOIMMUNE-RESPONSE [Meeting Abstract]
Ledford, DK; Goni, F; Solomon, A; Franklin, EC; Frangione, B
ISI:A1982NJ70701865
ISSN: 0009-9279
CID: 30427
COMPLETE AMINO-ACID-SEQUENCE OF AMYLOID PRE-ALBUMIN VARIANT IN FAMILIAL POLYNEUROPATHY OF JEWISH ORIGIN [Meeting Abstract]
Pras, M; Prelli, F; Franklin, EC; Frangione, B
ISI:A1982NJ70701156
ISSN: 0009-9279
CID: 30424
CHARACTERIZATION OF AMYLOID PROTEINS FROM AMYLOIDOSIS PRESENTING WITH FACTOR-X DEFICIENCY [Meeting Abstract]
Cohen, DH; Pras, M; Franklin, EC; Frangione, B
ISI:A1982NJ70701093
ISSN: 0009-9279
CID: 30422
SENILE-CARDIAC AMYLOIDOSIS - ISOLATION OF FIBRILS AND IMMUNOHISTOLOGICAL IDENTITY WITH HEREDOFAMILIAL NEUROPATHIC AMYLOID DUE TO TISSUE DEPOSITION OF PRE-ALBUMIN [Meeting Abstract]
Gorevic, PD; Pras, M; Wright, JR; Frangione, B
ISI:A1982NJ70701120
ISSN: 0009-9279
CID: 30558
J chain is covalently bound to both monomer subunits in human secretory IgA
Garcia-Pardo A; Lamm ME; Plaut AG; Frangione B
Previous work has established that the secretory component (SC) in human secretory IgA is covalently linked to only one of the two IgA monomer subunits, but it has not been clear whether the J chain is covalently linked to one or to both of these subunits. In view of the asymmetry in the disulfide bonding between SC and the IgA subunits, an arrangement which follows disulfide interchange, several models for the disulfide linkage of J chain and the bonds between IgA subunits were envisaged and investigated. When sIgA was gel filtered through Sephadex G-200 in acetic acid, a single major symmetrical peak eluted at the front. This material contained SC, alpha and L chains, and all of the J chain. The greater resolution afforded by polyacrylamide gel electrophoresis in detergent confirmed that human sIgA contains no major noncovalently linked components in the 150,000-200,000 molecular weight range. In another series of experiments the Fc monomer, which is not covalently attached to SC, isolated after treatment of sIgA with IgA protease and cyanogen bromide, was investigated to learn whether alpha chain COOH-terminal octapeptides could be released by reduction. The results were negative. The available data thus favor a model in which J chain is disulfide-bonded to both IgA monomer subunits in sIgA.
PMID: 6795191
ISSN: 0021-9258
CID: 9636
Insertion of influenza M protein into the viral lipid bilayer and localization of site of insertion
Gregoriades A; Frangione B
Recent studies with isolated M protein from influenza virus have shown that the protein has a high affinity for lipid. The ability of M to partition into lipid vesicles merely by shaking vesicles and M together is suggestive evidence that the protein could be interacting with the lipid in the virus particle. A more direct analysis was carried our here to determine whether M is in contact with the viral lipid in situ, by using the photoactivatable hydrophobic probe, pyrenesulfonyl azide. Covalent linkage of this probe to M indicated that a segment of M residues with in the virus membrane in contact with the lipid bilayer. M inserted into lipid vesicles at two locations on the molecule. A major insertion into lipid occurred in the middle of the molecule where a large cluster of 20 hydrophobic and neutral amino acids occurs. A second insertion occurred approximately one fourth in from the amino terminus, where a smaller segment of 13 uncharged amino acids is found. Confirmation that M inserted into lipid at these locations came also from results with cyanogen bromide fragments of M. Of the 12 to 13 fragments produced, 3 specifically bound to lipid vesicles. These were the first, second, and third contiguous segments beginnings at the amino terminus and containing the two hydrophobic areas noted above.
PMCID:256625
PMID: 7288926
ISSN: 0022-538x
CID: 9637