Loubna A. Hammad scite author profile

Bis-(3=-5=)-cyclic dimeric GMP (c-di-GMP) is an intracellular second messenger that regulates adaptation processes, including biofilm formation, motility, and virulence in Gram-negative bacteria. In this study, we have characterized the core components of a c-di-GMP signaling pathway in the model Gram-positive bacterium Bacillus subtilis. Specifically, we have directly identified and characterized three active diguanylate cyclases, DgcP, DgcK, and DgcW (formerly YtrP, YhcK, and YkoW, respectively), one active c-di-GMP phosphodiesterase, PdeH (formerly YuxH), and a cyclic-diguanylate (c-di-GMP) receptor, DgrA (formerly YpfA). Furthermore, elevation of c-di-GMP levels in B. subtilis led to inhibition of swarming motility, whereas biofilm formation was unaffected. Our work establishes paradigms for Gram-positive c-di-GMP signaling, and we have shown that the concise signaling system identified in B. subtilis serves as a powerful heterologous host for the study of c-di-GMP enzymes from bacteria predicted to possess larger, more-complex signaling systems.

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Phycoerythrin-specific bilin lyase–isomerase controls blue-green chromatic acclimation in marineSynechococcus

Shukla

Biswas

Blot

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

132

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The marine cyanobacterium Synechococcus is the second most abundant phytoplanktonic organism in the world's oceans. The ubiquity of this genus is in large part due to its use of a diverse set of photosynthetic light-harvesting pigments called phycobiliproteins, which allow it to efficiently exploit a wide range of light colors. Here we uncover a pivotal molecular mechanism underpinning a widespread response among marine Synechococcus cells known as "type IV chromatic acclimation" (CA4). During this process, the pigmentation of the two main phycobiliproteins of this organism, phycoerythrins I and II, is reversibly modified to match changes in the ambient light color so as to maximize photon capture for photosynthesis. CA4 involves the replacement of three molecules of the green light-absorbing chromophore phycoerythrobilin with an equivalent number of the blue light-absorbing chromophore phycourobilin when cells are shifted from green to blue light, and the reverse after a shift from blue to green light. We have identified and characterized MpeZ, an enzyme critical for CA4 in marine Synechococcus. MpeZ attaches phycoerythrobilin to cysteine-83 of the α-subunit of phycoerythrin II and isomerizes it to phycourobilin. mpeZ RNA is six times more abundant in blue light, suggesting that its proper regulation is critical for CA4. Furthermore, mpeZ mutants fail to normally acclimate in blue light. These findings provide insights into the molecular mechanisms controlling an ecologically important photosynthetic process and identify a unique class of phycoerythrin lyase/isomerases, which will further expand the already widespread use of phycoerythrin in biotechnology and cell biology applications.light regulation | marine cyanobacteria | phycobilisomes | fluorescence | liquid chromatography-mass spectrometry

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Vitamin B₁₂ regulates photosystem gene expression via the CrtJ antirepressor AerR in Rhodobacter capsulatus

Cheng

Hammad

et al. 2014

Molecular Microbiology

102

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Summary The tetrapyrroles heme, bacteriochlorophyll and cobalamin (B12) exhibit a complex interrelationship regarding their synthesis. In this study, we demonstrate that AerR functions as an antirepressor of the tetrapyrrole regulator CrtJ. We show that purified AerR contains B12 that is bound to a conserved histidine (His145) in AerR. The interaction of AerR to CrtJ was further demonstrated in vitro by pull down experiments using AerR as bait and quantified using microscale thermophoresis. DNase I DNA footprint assays show that AerR containing B12 inhibits CrtJ binding to the bchC promoter. We further show that bchC expression is greatly repressed in a B12 auxotroph of Rhodobacter capsulatus and that B12 regulation of gene expression is mediated by AerR’s ability to function as an antirepressor of CrtJ. This study thus provides a mechanism for how the essential tetrapyrrole, cobalamin controls the synthesis of bacteriochlorophyll, an essential component of the photosystem.

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In a Variable Thermal Environment Selection Favors Greater Plasticity of Cell Membranes in Drosophila Melanogaster

Cooper

Hammad

Fisher

et al. 2012

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Induction of caspase 3 activation by multipleLegionella pneumophila Dot/Icm substrates

et al. 2013

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The intracellular pathogen Legionella pneumophila is able to strike a balance between the death and survival of the host cell during infection. Despite the presence of high level of active caspase-3, the executioner caspase of apoptotic cell death, infected permissive macrophages are markedly resistant to exogenous apoptotic stimuli. Several bacterial molecules capable of promoting the cell survival pathways have been identified, but proteins involved in the activation of caspase-3 remain unknown. To study the mechanism of L. pneumophila-mediated caspase-3 activation, we tested all known Dot/Icm substrates for their ability to activate caspase-3. Five effectors capable of causing caspase-3 activation upon transient expression were identified. Among these, by using its ability to activate caspase-3 by inducing the release of cytochrome c from the mitochondria, we demonstrated that VipD is a phospholipase A2, which hydrolyzes phosphatidylethanolamine (PE) and phosphocholine (PC) on the mitochondrial membrane in a manner that appears to require host co-factor(s). The lipase activity leads to the production of free fatty acids and 2-lysophospholipids, which destabilize the mitochondrial membrane and may contribute to the release of cytochrome c and the subsequent caspase 3 activation. Furthermore, we found that whereas it is not detectably defectively in caspase 3 activation in permissive cells, a mutant lacking all of these five genes is less potent in inducing apoptosis in dendritic cells. Our results reveal that activation of host cell death pathways by L. pneumophila is a result of the effects of multiple bacterial proteins with diverse biochemical functions.

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Loubna A. Hammad

Functional Characterization of Core Components of the Bacillus subtilis Cyclic-Di-GMP Signaling Pathway

Phycoerythrin-specific bilin lyase–isomerase controls blue-green chromatic acclimation in marineSynechococcus

Vitamin B₁₂ regulates photosystem gene expression via the CrtJ antirepressor AerR in Rhodobacter capsulatus

In a Variable Thermal Environment Selection Favors Greater Plasticity of Cell Membranes in Drosophila Melanogaster

Induction of caspase 3 activation by multipleLegionella pneumophila Dot/Icm substrates

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Loubna A. Hammad

Functional Characterization of Core Components of the Bacillus subtilis Cyclic-Di-GMP Signaling Pathway

Phycoerythrin-specific bilin lyase–isomerase controls blue-green chromatic acclimation in marineSynechococcus

Vitamin B12 regulates photosystem gene expression via the CrtJ antirepressor AerR in Rhodobacter capsulatus

In a Variable Thermal Environment Selection Favors Greater Plasticity of Cell Membranes in Drosophila Melanogaster

Induction of caspase 3 activation by multipleLegionella pneumophila Dot/Icm substrates

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Product

Resources

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Vitamin B₁₂ regulates photosystem gene expression via the CrtJ antirepressor AerR in Rhodobacter capsulatus