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Disease
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Enzyme
Compound
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Enzyme
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Query: EC:3.2.1.17 (
lysozyme
)
21,489
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Three conditional Bacillus cereus mutants altered in the assembly or formation of spore coat layers were analyzed. They all grew as well as the wild type in an enriched or minimal medium but produced
lysozyme
and octanol-sensitive spores at the nonpermissive temperature (35 to 38 degrees C). The spores also germinated slowly when produced at 35 degrees C. Temperature-shift experiments indicated that the defective protein or regulatory signal is expressed at the time of formation of the outer spore coat layers. Revertants regained all wild-type spore properties at frequencies consistent with initial point mutations. Spore coat defects were evident in thin sections and freeze-etch micrographs of mutant spores produced at 35 degrees C. In addition, one mutant contained an extra surface deposit, perhaps unprocessed spore coat
precursor protein
. A prevalent band of about 65,000 daltons (the same size as the presumptive precursor) was present in spore coat extracts of this mutant and may be incorrectly processed to mature spore coat polypeptides. Another class of mutants was defective in the late uptake of half-cystine residues into spore coats. Such a defect could lead to improper formation of the outer spore coat layers.
...
PMID:Properties of Bacillus cereus temperature-sensitive mutants altered in spore coat formation. 9 97
Signal sequences play a central role in the initial membrane translocation of secretory proteins. Their functions depend on factors such as hydrophobicity and conformation of the signal sequences themselves. However, some characteristics of mature proteins, especially those of the N-terminal region, might also affect the function of the signal sequences. To examine this possibility, several mutants of human
lysozyme
modified in the N-terminal region of the mature protein were constructed, and their secretion in yeast as well as in vitro translocation into canine pancreatic microsomes were analyzed using an idealized signal sequence L8 (MR(L)8PLAALG). Our results show the following. (1) Change in the charge at the N-terminal residue of the mature protein does not affect secretion drastically. (2) Substitution of a proline residue at the N terminus prevents cleavage of the signal sequence, although translocation itself is not impaired. (3) Excessive positive charges in the N-terminal region delay translocation of the
precursor protein
across the membrane. (4) Polar and negatively charged residues introduced into the N-terminal region affect the secretion of the mature protein by preventing its correct folding.
...
PMID:Alteration of N-terminal residues of mature human lysozyme affects its secretion in yeast and translocation into canine microsomal vesicles. 193 91
Lysozymes have proved useful for analyzing the relation between protein structure and function and evolution. In bacteriophage T4, the major soluble
lysozyme
is the product of the e gene, gpe (gene product = gp). This
lysozyme
destroys the wall of its host, Escherichia coli, at the end of infection to release progeny particles. Phage T4 contains two additional lysozymes that facilitate penetration of the baseplates into host cell walls during adsorption. At least one of these, a 44-kD protein, is encoded by gene 5. We show here that a segment of the gp5
lysozyme
amino acid sequence, deduced from the DNA sequence of gene 5, is remarkably similar to that of the T4 gene e
lysozyme
. Both T4 lysozymes are somewhat similar to the
lysozyme
of the Salmonella phage P22, but there is little significant DNA sequence homology among the two T4
lysozyme
genes and the P22
lysozyme
gene. We speculate that these lysozymes are adapted to differences in the composition of the cell walls of E. coli and S. typhimurium. The cloned gene 5 of the phage T4 directs synthesis of a 63-kD
precursor protein
that is approximately 19 kD larger than the gene 5 protein isolated from baseplates. Gp5 first associates with gp26 to form the central hub of this structure.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Functional relationships and structural determinants of two bacteriophage T4 lysozymes: a soluble (gene e) and a baseplate-associated (gene 5) protein. 248 4
A gene of Lactococcus lactis subsp. cremoris MG1363 encoding a peptidoglycan hydrolase was identified in a genomic library of the strain in pUC19 by screening Escherichia coli transformants for cell wall lysis activity on a medium containing autoclaved, lyophilized Micrococcus lysodeikticus cells. In cell extracts of L. lactis MG1363 and several halo-producing E. coli transformants, lytic bands of similar sizes were identified by denaturing sodium dodecyl sulfate (SDS)-polyacrylamide gels containing L. lactis or M. lysodeikticus cell walls. Of these clearing bands, corresponding to the presence of lytic enzymes with sizes of 46 and 41 kDa, the 41-kDa band was also present in the supernatant of an L. lactis culture. Deletion analysis of one of the recombinant plasmids showed that the information specifying lytic activity was contained within a 2,428-bp EcoRV-Sau3A fragment. Sequencing of part of this fragment revealed a gene (acmA) that could encode a polypeptide of 437 amino acid residues. The calculated molecular mass of AcmA (46,564 Da) corresponded to that of one of the lytic activities detected. Presumably, the enzyme is synthesized as a
precursor protein
which is processed by cleavage after the Ala at position 57, thus producing a mature protein with a size of 40,264 Da, which would correspond to the size of the enzyme whose lytic activity was present in culture supernatants of L. lactis. The N-terminal region of the mature protein showed 60% identity with the N-terminal region of the mature
muramidase
-2 of Enterococcus hirae and the autolysin of Streptococcus faecalis. Like the latter two enzymes, AcmA contains C-terminal repeated regions. In AcmA, these three repeats are separated by nonhomologous intervening sequences highly enriched in serine, threonine, and asparagine. Genes specifying identical activities were detected in various strains of L. lactis subsp. lactis and L. lactis subsp. cremoris by the SDS-polyacrylamide gel electrophoresis detection assay and PCR experiments. By replacement recombination, an acmA deletion mutant which grew as long chains was constructed, indicating that AcmA is required for cell separation.
...
PMID:Molecular cloning and nucleotide sequence of the gene encoding the major peptidoglycan hydrolase of Lactococcus lactis, a muramidase needed for cell separation. 788 12
In an attempt to identify and characterize components of a heme uptake system of Haemophilus somnus, an Escherichia coli cosmid library of H. somnus genomic DNA was screened for the ability to bind hemin (Hmb+). The Hmb+ phenotype was associated with a 7,814-bp HindIII fragment of H. somnus DNA that was subcloned and sequenced. Thirteen open reading frames (orfs) were identified, all transcribed in one direction, and transposon mutagenesis identified orf7 as the gene associated with the Hmb+ phenotype. Orf7 (178 amino acids) has extensive homology with the lysozymes of bacteriophages P-A2, P21, P22, PZA, phi-29, phi-vML3, T4, or HP1. The orf7 gene complemented the lytic function of the K gene of phage P2 and the R gene of phage lambda. A
lysozyme
assay using supernatants from whole-cell lysates of E. coli cultures harboring plasmid pRAP501 or pGCH2 (both of which express the orf7 gene product) exhibited significant levels of
lysozyme
activity. The orf6 gene upstream of orf7 has the dual start motif common to the holins encoded by lambdoid S genes, and the orf6 gene product has significant homology to the holins of phages HP1 and P21. When expressed from a tac promoter, the orf6 gene product caused immediate cell death without lysis, while cultures expressing the orf7 gene product grew at normal rates but lysed immediately after the addition of chloroform. Based on this data, we concluded that the Hmb+ phenotype was an artifact resulting from the expression of cloned lysis genes which were detrimental to the E. coli host. The DNA flanking the cloned lysis genes contains orfs that are similar to structural and DNA packaging genes of phage P2. Polyclonal antiserum against Orf2, which is homologous to the major capsid
precursor protein
(gpN) of phage P2, detected a 40,000-M(r) protein expressed from pRAP401 but did not detect Orf2 in H. somnus, lysates. The phage-like DNA was detected in the serum-susceptible preputial strains HS-124P and HS-127P but was absent from the serum-resistant preputial strains HS-20P and HS-22P. Elucidation of a potential role for this cryptic prophage in the H. somnus life cycle requires more study.
...
PMID:Cloning and characterization of bacteriophage-like DNA from Haemophilus somnus homologous to phages P2 and HP1. 906 31
Tail-associated
lysozyme
of bacteriophage T4 (tail
lysozyme
), the product of gene 5 (gp 5), is an essential structural component of the hub of the phage baseplate. It is synthesized as a 63-kDa precursor, which later cleaves to form mature gp 5 with a molecular weight of 43,000. To elucidate the role of the C-terminal region of the
precursor protein
, gene 5 was cloned and overexpressed and the product was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, immunoblotting, analytical ultracentrifugation, and circular dichroism. It was shown that the
precursor protein
tends to be cleaved into two fragments during expression and that the cleavage site is close to or perhaps identical to the cleavage site in the infected cell. The two fragments, however, remained associated. The
lysozyme
activity of the precursor or the nicked protein is about 10% of that of mature gp 5. Both the N-terminal mature tail
lysozyme
and the C-terminal fragment were then isolated and characterized by far-UV circular dichroism and analytical ultracentrifugation. The latter remained trimeric after dissociation from the N-terminal fragment and is rich in beta-structure as predicted by an empirical method. To trace the fate of the C-terminal fragment, antiserum was raised against a synthesized peptide of the last 12 C-terminal residues. Surprisingly, the C-terminal fragment was found in the tail and the phage particle by immunoblotting. The significance of this finding is discussed in relation to the molecular assembly and infection process.
...
PMID:The C-terminal fragment of the precursor tail lysozyme of bacteriophage T4 stays as a structural component of the baseplate after cleavage. 1021 62
sigma(E), a mother cell-specific transcription factor of sporulating Bacillus subtilis, is derived from an inactive
precursor protein
(pro-sigma(E)). Activation of sigma(E) occurs when a sporulation-specific protease (SpoIIGA) cleaves 27 amino acids from the pro-sigma(E) amino terminus. This reaction is believed to take place at the mother cell-forespore septum. Using a chimera of pro-sigma(E) and green fluorescent protein (GFP) to visualize the intracellular location of pro-sigma(E) by fluorescence microscopy, and
lysozyme
treatment to separate the mother cell and forespore compartments, we determined that the pro-sigma(E)::GFP signal, localized to the forespore septum prior to
lysozyme
treatment, is restricted to the mother cell compartment after treatment. Thus, pro-sigma(E)::GFP had been sequestered to the mother cell side of the septum. This segregation of pro-sigma(E)::GFP, and presumably pro-sigma(E), to the mother cell is likely to be the reason why sigma(E) activity is restricted to that compartment.
...
PMID:The "pro" sequence of the sporulation-specific sigma transcription factor sigma(E) directs it to the mother cell side of the sporulation septum. 1049 32
After stimulation with heat-killed bacteria, cultured cells from the mosquito Aedes aegypti (Aag-2 cells) secreted an induced protein with a mass of approximately 16 kDa that cross-reacted with antibody to chicken egg
lysozyme
. To investigate whether
lysozyme
messenger RNA is induced in bacteria-treated cells, we used polymerase chain reaction-based approaches to obtain the complete
lysozyme
cDNA from Aag-2 cells. The deduced protein contained 148 amino acids, including a 23 amino acid signal sequence. The calculated mass of the
precursor protein
is 16 965 Da, which is processed to yield a mature
lysozyme
of 14 471 Da with a calculated pI of 10.1. The
lysozyme
from Ae. aegypti shared 50% amino acid identity with lysozymes from Anopheles gambiae and Anopheles darlingi, which in turn shared 70% identity between each other. Northern analysis with the
lysozyme
cDNA probe showed induction of a 1.3 kb messenger RNA during the first 3 h after treatment of Aag-2 cells with heat-killed bacteria, followed by maximal expression 12-36 h after treatment. Southern analysis suggested that the gene likely occurs as a single copy in the genome of Aag-2 cells.
...
PMID:Immune activation upregulates lysozyme gene expression in Aedes aegypti mosquito cell culture. 1112 64
Cryo-electron microscopy studies are presented on amyloid fibrils isolated from amyloidotic organs of two patients with different forms of hereditary non-neuropathic systemic amyloidosis, caused, respectively, by Leu60Arg apolipoprotein AI and Asp67His
lysozyme
. Although ex vivo amyloid fibrils were thought to be more uniform in structure than those assembled in vitro, our findings show that these fibrils are also quite variable in structure. Structural disorder and variability of the fibrils have precluded three-dimensional reconstruction, but averaged cryo-electron microscopy images suggest models for protofilament packing in the
lysozyme
fibrils. We conclude that ex vivo amyloid fibrils, although variable, assemble as characteristic structures according to the identity of the
precursor protein
.
...
PMID:Structural diversity of ex vivo amyloid fibrils studied by cryo-electron microscopy. 1147 57
Mutations in a number of plasma proteins, including transthyretin, apolipoprotein AI, fibrinogen Aalpha-chain,
lysozyme
, and apolipoprotein AII, are associated with hereditary systemic amyloidosis. Transthyretin amyloidosis is the most common and is usually associated with peripheral neuropathy. Mutations in the other proteins usually have no neuropathic consequences and, instead, cause principally renal and cardiac amyloidosis. Only the apolipoprotein AI glycine 26 arginine mutation may cause peripheral neuropathy and then in only some of the kindreds with this disease. This review is concerned with the non-neuropathic hereditary systemic amyloidoses. It strives to present a synopsis of the present day knowledge of these diseases including each feature of each
precursor protein
and its mutations; the clinical phenotype of the disease; and suggestions for treatment when feasible. The main objective is to increase awareness of these autosomal dominant diseases, enhance the chances of early diagnosis, enhance the physician's and subsequently the patient's knowledge of each disease, and finally emphasize the need for more research to find ways to treat or prevent these diseases.
...
PMID:Ostertag revisited: the inherited systemic amyloidoses without neuropathy. 1601 83
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