Your search keyword '"Garza, Anthony G."' showing total 4 results

1. Two-Component Signal Transduction Systems That Regulate the Temporal and Spatial Expression of Myxococcus xanthus Sporulation Genes.

Author

Sarwar, Zaara and Garza, Anthony G.

Subjects

*CELLULAR signal transduction, *MYXOCOCCUS xanthus, *BACTERIAL sporulation, *BACTERIAL genes, *BACTERIA nutrition, *BACTERIAL cells

Abstract

When starved for nutrients, Myxococcus xanthus produces a biofilm that contains a mat of rod-shaped cells, known as peripheral rods, and aerial structures called fruiting bodies, which house thousands of dormant and stress-resistant spherical spores. Because rod-shaped cells differentiate into spherical, stress-resistant spores and spore differentiation occurs only in nascent fruiting bodies, many genes and multiple levels of regulation are required. Over the past 2 decades, many regulators of the temporal and spatial expression of M. xanthus sporulation genes have been uncovered. Of these sporulation gene regulators, two-component signal transduction circuits, which typically contain a histidine kinase sensor protein and a transcriptional regulator known as response regulator, are among the best characterized. In this review, we discuss prototypical two-component systems (Nla6S/Nla6 and Nla28S/Nla28) that regulate an early, preaggregation phase of sporulation gene expression during fruiting body development. We also discuss orphan response regulators (ActB and FruA) that regulate a later phase of sporulation gene expression, which begins during the aggregation stage of fruiting body development. In addition, we summarize the research on a complex two-component system (Esp) that is important for the spatial regulation of sporulation. [ABSTRACT FROM AUTHOR]

Published

2016

2. The Nla6S protein of Myxococcus xanthus is the prototype for a new family of bacterial histidine kinases.

Author

Sarwar, Zaara and Garza, Anthony G.

Subjects

*BACTERIAL proteins, *HISTIDINE kinases, *HISTIDINE kinase genetics, *MYXOCOCCUS xanthus, *CELLULAR signal transduction, *GENE expression in bacteria, *PROTOTYPE research

Abstract

Myxococcus xanthus has a large number of histidine kinase ( HK) signal transduction proteins and many of these HKs are important for fruiting body development. Nla6S is an uncharacterized HK that lacks many of the conserved sequence motifs of typical HK proteins. In this study, we report that expression of the nla6S gene increases about sixfold during fruiting body development, that the Nla6S protein has the in vitro properties of HKs and that Nla6S is the prototype for a new family of HKs. To date, these Nla6-like HKs are found only in fruiting members of the Cystobacterineae suborder of the myxobacteria. [ABSTRACT FROM AUTHOR]

Published

2012

3. The Nla28S/Nla28 Two-Component Signal Transduction System Regulates Sporulation in Myxococcus xanthus.

Author

Sarwar, Zaara and Garza, Anthony G.

Subjects

*CELLULAR signal transduction, *MYXOCOCCUS xanthus, *GENES, *HISTIDINE kinases, *PHOSPHOTRANSFERASES, *PHOSPHORYLATION

Abstract

The response regulator Nla28 is a key component in a cascade of transcriptional activators that modulates expression of many important developmental genes in Myxococcus xanthus. In this study, we identified and characterized Nla28S, a histidine kinase that modulates the activity of this important regulator of M. xanthus developmental genes. We show that the putative cytoplasmic domain of Nla28S has the in vitro biochemical properties of a histidine kinase protein: it hydrolyzes ATP and undergoes ATP-dependent autophosphorylation that is acid labile and base stable. We also show that the putative cytoplasmic domain Nla28S transfers a phosphoryl group to Nla28 in vitro, that the phosphotransfer is specific, and that a substitution in the predicted site of Nla28 phosphorylation (aspartate 53) abolishes the phosphotransfer reaction. In phenotypic studies, we found that a mutation in nla28S produces a developmental phenotype similar to, but weaker than, that produced by a mutation in nla28; both mutations primarily affect sporulation. Together, these data indicate that Nla28S is the in vivo histidine kinase partner of Nla28 and that the primary function of the Nla28S/Nla28 two-component signal transduction system is to regulate sporulation genes. The results of genetic studies suggest that phosphorylation of Nla28S is important for the in vivo sporulation function of the Nla28S/Nla28 two-component system. In addition, the quorum signal known as A-signal is important for full developmental expression of the nla28S-nla28 operon, suggesting that quorum signaling regulates the availability of the Nla28S/Nla28 signal transduction circuit in developing cells. [ABSTRACT FROM AUTHOR]

Published

2012

4. The asgE locus is required for cell–cell signalling during Myxococcus xanthus development.

Author

Garza, Anthony G, Harris, Baruch Z, Pollack, Jeffrey S, and Singer, Mitchell

Subjects

*MYXOCOCCUS xanthus, *CELLULAR signal transduction, *GENETICS

Abstract

In response to starvation, Myxococcus xanthus undergoes a multicellular developmental process that produces a dome-shaped fruiting body structure filled with differentiated cells called myxospores. Two insertion mutants that block the final stages of fruiting body morphogenesis and reduce sporulation efficiency were isolated and characterized. DNA sequence analysis revealed that the chromosomal insertions are located in open reading frames ORF2 and asgE , which are separated by 68 bp. The sporulation defect of cells carrying the asgE insertion can be rescued phenotypically when co-developed with wild-type cells, whereas the sporulation efficiency of cells carrying the ORF2 insertion was not improved when mixed with wild-type cells. Thus, the asgE insertion mutant appears to belong to a class of developmental mutants that are unable to produce cell–cell signals required for M . xanthus development, but they retain the ability to respond to them when they are provided by wild-type cells. Several lines of evidence indicate that asgE cells fail to produce normal levels of A-factor, a cell density signal. A-factor consists of a mixture of heat-stable amino acids and peptides, and at least two heat-labile extracellular proteases. The asgE mutant yielded about 10-fold less heat-labile A-factor and about twofold less heat-stable A-factor than wild-type cells, suggesting that the primary defect of asgE cells is in the production or release of heat-labile A-factor. [ABSTRACT FROM AUTHOR]

Published

2000