M. A. Galyamina scite author profile

We present the complete genome sequence and proteogenomic map for Acholeplasma laidlawii PG-8A (class Mollicutes, order Acholeplasmatales, family Acholeplasmataceae). The genome of A. laidlawii is represented by a single 1,496,992-bp circular chromosome with an average G؉C content of 31 mol%. This is the longest genome among the Mollicutes with a known nucleotide sequence. It contains genes of polymerase type I, SOS response, and signal transduction systems, as well as RNA regulatory elements, riboswitches, and T boxes. This demonstrates a significant capability for the regulation of gene expression and mutagenic response to stress. Acholeplasma laidlawii and phytoplasmas are the only Mollicutes known to use the universal genetic code, in which UGA is a stop codon. Within the Mollicutes group, only the sterol-nonrequiring Acholeplasma has the capacity to synthesize saturated fatty acids de novo. Proteomic data were used in the primary annotation of the genome, validating expression of many predicted proteins. We also detected posttranslational modifications of A. laidlawii proteins: phosphorylation and acylation. Seventy-four candidate phosphorylated proteins were found: 16 candidates are proteins unique to A. laidlawii, and 11 of them are surface-anchored or integral membrane proteins, which implies the presence of active signaling pathways. Among 20 acylated proteins, 14 contained palmitic chains, and six contained stearic chains. No residue of linoleic or oleic acid was observed. Acylated proteins were components of mainly sugar and inorganic ion transport systems and were surface-anchored proteins with unknown functions.

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Application of Spiroplasma melliferum Proteogenomic Profiling for the Discovery of Virulence Factors and Pathogenicity Mechanisms in Host-associated Spiroplasmas

Alexeev

Kostrjukova²,

Aliper³

et al. 2011

J. Proteome Res.

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To date, no genome of any of the species from the genus Spiroplasma has been completely sequenced. Long repetitive sequences similar to mobile units present a major obstacle for current genome sequencing technologies. Here, we report the assembly of the Spiroplasma melliferum KC3 genome into 4 contigs, followed by proteogenomic annotation and metabolic reconstruction based on the discovery of 521 expressed proteins and comprehensive metabolomic profiling. A systems approach allowed us to elucidate putative pathogenicity mechanisms and to discover major virulence factors, such as Chitinase utilization enzymes and toxins never before reported for insect pathogenic spiroplasmas.

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Core Proteome of the Minimal Cell: Comparative Proteomics of Three Mollicute Species

et al. 2011

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Mollicutes (mycoplasmas) have been recognized as highly evolved prokaryotes with an extremely small genome size and very limited coding capacity. Thus, they may serve as a model of a ‘minimal cell’: a cell with the lowest possible number of genes yet capable of autonomous self-replication. We present the results of a comparative analysis of proteomes of three mycoplasma species: A. laidlawii, M. gallisepticum, and M. mobile. The core proteome components found in the three mycoplasma species are involved in fundamental cellular processes which are necessary for the free living of cells. They include replication, transcription, translation, and minimal metabolism. The members of the proteome core seem to be tightly interconnected with a number of interactions forming core interactome whether or not additional species-specific proteins are located on the periphery. We also obtained a genome core of the respective organisms and compared it with the proteome core. It was found that the genome core encodes 73 more proteins than the proteome core. Apart of proteins which may not be identified due to technical limitations, there are 24 proteins that seem to not be expressed under the optimal conditions.

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The Acylation State of Surface Lipoproteins of Mollicute Acholeplasma laidlawii

Serebryakova

Demina

Galyamina

et al. 2011

Journal of Biological Chemistry

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Acylation of the N-terminal Cys residue is an essential, ubiquitous, and uniquely bacterial posttranslational modification that allows anchoring of proteins to the lipid membrane. In Gram-negative bacteria, acylation proceeds through three sequential steps requiring lipoprotein diacylglyceryltransferase, lipoprotein signal peptidase, and finally lipoprotein N-acyltransferase. The apparent lack of genes coding for recognizable homologs of lipoprotein N-acyltransferase in Gram-positive bacteria and Mollicutes suggests that the final step of the protein acylation process may be absent in these organisms. In this work, we monitored the acylation state of eight major lipoproteins of the mollicute Acholeplasma laidlawii using a combination of standard two-dimensional gel electrophoresis protein separation, blotting to nitrocellulose membranes, and MALDI-MS identification of modified N-terminal tryptic peptides. We show that for each A. laidlawii lipoprotein studied a third fatty acid in an amide linkage on the N-terminal Cys residue is present, whereas diacylated species were not detected. The result thus proves that A. laidlawii encodes a lipoprotein N-acyltransferase activity. We hypothesize that N-acyltransferases encoded by genes non-homologous to N-acyltransferases of Gram-negative bacteria are also present in other mollicutes and Gram-positive bacteria.Essential cellular activities such as transport, sensing, signal transduction, growth, adhesion, and pathogenesis require proteins localized on the cell surface. One of the strategies to anchor a protein at the lipid membrane is covalent modification of proteins by fatty acids or other lipids. All bacteria rely on acylation of N-terminal Cys residues of lipoproteins to allow tight anchorage on the membrane surface (1). This uniquely bacterial modification was first observed in 1969 in a major outer membrane protein of Escherichia coli called Braun's lipoprotein and later detected in every bacterial organism studied (2). Adhesion proteins and substrate-binding subunits of ATPbinding cassette (ABC) 2 transporters are known to be attached to the membrane in this manner. Thousands of proteins predicted to be lipoproteins "by similarity" according to the presence of consensus sequences of Sec Type II or Tat Type II signal peptides are also thought to be acylated (3).Bacteria of the Mollicutes class are widespread in nature and are characterized by the lack of a rigid cell wall and drastically reduced genome sizes. In fact, representatives of this class are the simplest self-replicating organisms able to independently subsist, generate energy, and adapt to changing environments (4 and references therein). Most mollicutes depend on cholesterol and are partially or totally incapable of fatty acid synthesis and therefore depend on the host or the culture medium for a constant supply of these substances (5). Acholeplasma laidlawii is a convenient model mollicute because of its relatively simple nutritional requirements and fast growth rate. A. laidlawii can synthesize limit...

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The role of intracellular glutathione in the progression of Chlamydia trachomatis infection

Лазарев¹,

Borisenko²,

Shkarupeta³

et al. 2010

Free Radical Biology and Medicine

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M. A. Galyamina

Complete Genome and Proteome of Acholeplasma laidlawii

Application of Spiroplasma melliferum Proteogenomic Profiling for the Discovery of Virulence Factors and Pathogenicity Mechanisms in Host-associated Spiroplasmas

Core Proteome of the Minimal Cell: Comparative Proteomics of Three Mollicute Species

The Acylation State of Surface Lipoproteins of Mollicute Acholeplasma laidlawii

The role of intracellular glutathione in the progression of Chlamydia trachomatis infection

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