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Query: EC:3.4.24.27 (
thermolysin
)
1,894
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A method was devised to isolate N-terminal peptide fragments from the polypeptide chains constituting
thyroglobulin
even in the case when the terminal amino groups are naturally blocked, for instance, acylated. Reduced and carboxymethylated hog
thyroglobulin
was first acetylated and digested with
thermolysin
. The blocked N-terminal peptide fragments were separated from the unblocked N-terminal fragments by column chromatography on Dowex 50, then on Dowex 1 after dinitrophenylation, and finally fractionated into ten fractions by paper chromatography after gel filtration on Sephadex G-10. Structural analyses by enzymic or partial acid hydrolysis of these peptide fractions failed to detect N-terminal acetyl amino acid. Instead, pyroglutamyl peptides including pyroglutamylleucine were found. By the same method, acetylated lysine and glycine were identified for chicken lysozyme and horse myoglobin, respectively. The use of
thermolysin
because of its unique specificity, and the possible relevance of the present result to the previous data on the N-terminal analysis of
thyroglobulin
are discussed.
...
PMID:The presence of N-terminal pyroglutamyl residues in hog thyroglobulin. 93 62
Bovine and human
thyroglobulin
show two closely migrating bands in reducing SDS-PAGE. Limited digestion with chymotrypsin, trypsin and
thermolysin
converted the slower band of the doublet into a peptide identical to the faster band, with an apparent mass of 270 kDa, in both species. The starting point of the faster band of the doublet was established at Ileu 520 with native bovine Tg and at Ser 503 with native human Tg, and at Ser 503 and Ser 504 with chymotrypsin-digested bovine and human Tg, respectively. These data explain the electrophoretic heterogeneity of
thyroglobulin
and unveil a region highly susceptible to proteolysis at about 500 residues from the NH2-terminus of the molecule.
...
PMID:The origin of the electrophoretic doublet of thyroglobulin. 151 Jun 54
The sites and the sequence of the proteolytic cleavages of bovine, human and rat
thyroglobulin
, during the limited proteolysis with
thermolysin
and trypsin, were determined by sequencing the NH2 termini of the peptides produced and comparing them to the cDNA-derived sequences of bovine, human and rat
thyroglobulin
. Major cleavage sites of bovine
thyroglobulin
included residues 240, 502, 993, 1218, 1784 with
thermolysin
, and 240, 520, 1142, 1783, 2515 with trypsin. Cleavage sites of human
thyroglobulin
included residues 503, 982, 990, 1405, 1831 with
thermolysin
, and 522, 1627, 2513 with trypsin. Those of rat
thyroglobulin
included residues 501, 1776, 1784 with
thermolysin
, and 522, 1771, 1825, 2515 with trypsin (numbered as in bovine
thyroglobulin
). Thus,
thyroglobulin
from various species presents well localized and conserved regions particularly sensitive to proteolysis. The most sensitive region extended for 30 residues after residue 500. Another major cluster of cleavages was centered around residue 1800; this region was only partially sensitive in human
thyroglobulin
. A conserved tryptic site lay at the COOH terminus of the molecule. Most cleavage sites occurred within the inserted sequences that disrupt the Cys-rich, tandem repeats of
thyroglobulin
and either contain or are located near exon-intron junctions. Several cleavage sites lay in proximity of early iodinated or hormonogenic tyrosyl residues or of putative N-linked glycosylation sites. While a predominantly beta-type secondary structure and a rigid three-dimensional structure were predicted for the Cys-rich repeats, stretches of predicted alpha-helices, beta-strands and irregular structure were interspersed in the regions surrounding the cleavage sites. These data demonstrate the existence of conserved regions of
thyroglobulin
inherently sensitive to proteolysis, which most likely represent solvent-exposed regions of the primary structure, possibly forming loops at the surface of
thyroglobulin
.
...
PMID:Preferential sites of proteolytic cleavage of bovine, human and rat thyroglobulin. The use of limited proteolysis to detect solvent-exposed regions of the primary structure. 826 51
A fragment of bovine
thyroglobulin
encompassing residues 1218-1591 was prepared by limited proteolysis with
thermolysin
and continuous-elution polyacrylamide gel electrophoresis in SDS. The reduced and carboxymethylated peptide was digested with endoproteinase Asp-N and fractionated by reverse-phase high performance liquid chromatography. The fractions were analyzed by electrospray and fast atom bombardment mass spectrometry in combination with Edman degradation. The post-translational modifications of all seven tyrosyl residues of the fragment were characterized at an unprecedented level of definition. The analysis revealed the formation of: 1) monoiodotyrosine from tyrosine 1234; 2) monoiodotyrosine, diiodotyrosine, triiodothyronine (T3), and tetraiodothyronine (thyroxine, T4) from tyrosine 1291; and 3) monoiodotyrosine, diiodotyrosine, and dehydroalanine from tyrosine 1375. Iodothyronine formation from tyrosine 1291 accounted for 10% of total T4 of
thyroglobulin
(0.30 mol of T4/mol of 660-kDa
thyroglobulin
), and 8% of total T3 (0.08 mol of T3/mol of
thyroglobulin
). This is the first documentation of the hormonogenic nature of tyrosine 1291 of bovine
thyroglobulin
, as thyroxine formation at a corresponding site was so far reported only in rabbit, guinea pig, and turtle
thyroglobulin
. This is also the first direct identification of tyrosine 1375 of bovine
thyroglobulin
as a donor residue. It is suggested that tyrosyl residues 1291 and 1375 may support together the function of an independent hormonogenic domain in the mid-portion of the polypeptide chain of
thyroglobulin
.
...
PMID:Identification of hormonogenic tyrosines in fragment 1218-1591 of bovine thyroglobulin by mass spectrometry. Hormonogenic acceptor TYR-12donor TYR-1375. 899 7
We have previously reported that the rat hepatic lectin-1 (RHL-1) subunit of rat asialoglycoprotein receptor (ASGPr), the endocytic receptor found on the basolateral surface of hepatocytes, was expressed in rat thyroid tissue and localized on the apical surface of polarized rat thyroid FRT cells. Here we show that PC Cl3 cells, a differentiated rat thyroid cell line, bound
thyroglobulin
(Tg) via ASGPr. In fact, both the bacterial recombinant carbohydrate recognition domain of RHL-1 (rCRD(RHL-1)) and the anti-rCRD(RHL-1) antibody markedly inhibited (125)I-Tg binding to the cell surface of PC Cl3 cells. Ligand blot assays with deglycosylated Tg show that the rCRD(RHL-1) was able to interact with Tg even after remotion of sugars. The region of Tg involved in the binding to RHL-1 was investigated by ligand blot assays with biotinylated rCRD(RHL-1) on
thermolysin
-digested native and desialated rat
thyroglobulin
. It is shown that the rCRD(RHL-1) specifically recognized a
thyroglobulin
fragment with an apparent M(r) of 68,000, corresponding to the amino-terminal part of the molecule. To our knowledge, this is the first report that attributes to the amino-terminal portion of Tg molecule, containing its earliest and major hormonogenic site, the function of binding to a cell surface receptor of the thyroid. Moreover, we show that oligosaccharides are not the only molecular signals for binding to RHL-1, but amino acidic determinants could also play a role.
...
PMID:The rat asialoglycoprotein receptor binds the amino-terminal domain of thyroglobulin. 1065 9
