Proteomic and Mutant Analysis of the CO
            <sub>2</sub>
            Concentrating Mechanism of Hydrothermal Vent Chemolithoautotroph Thiomicrospira crunogena

Mangiapia, Mary; Brown, Terry-Rene Wiesner; Chaput, Dale; Haller, Edward; Harmer, Tara L.; Hashemy, Zahra; Keeley, Ryan F.; Leonard, Juliana M.; Mancera, Paola A.; Nicholson, David A.; Stevens, Stanley M.; Wanjugi, Pauline; Zabinski, Tania; Pan, Chongle; Scott, Kathleen M.

doi:10.1128/jb.00871-16

Cited by 25 publications

(23 citation statements)

References 61 publications

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“…Previous studies suggested that in some proteobacterial species, cytosolic form IAq RuBisCOs exhibit a higher affinity and specificity for CO 2 even in the presence of O 2 [53]. During periods of high dissolved inorganic carbon (DIC) and NH 3 -limited conditions, cells favor upregulated production of the cytosolic form RuBisCO because of its higher sensitivity to fluctuating inorganic carbon concentrations compared to the carboxysomal counterpart [54].…”

Section: Discussionmentioning

confidence: 99%

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Dai

Chen

Myers

et al. 2018

Journal of Molecular Biology

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Cyanobacteria are photosynthetic organisms responsible for ~25% of the organic carbon fixation on earth. A key step in carbon fixation is catalyzed by ribulose bisphosphate carboxylase/oxygenase (RuBisCO), the most abundant enzyme in the biosphere. Applying Zernike phase-contrast electron cryo-tomography and automated annotation, we identified individual RuBisCO molecules and their assembly intermediates leading to the formation of carboxysomes inside Syn5 cyanophage infected cyanobacteria Synechococcus sp. WH8109 cells. Surprisingly, more RuBisCO molecules were found to be present as cytosolic free-standing complexes or clusters than as packaged assemblies inside carboxysomes. Cytosolic RuBisCO clusters and partially assembled carboxysomes identified in the cell tomograms support a concurrent assembly model involving both the protein shell and the enclosed RuBisCO. In mature carboxysomes, RuBisCO is neither randomly nor strictly icosahedrally packed within protein shells of variable sizes. A time-averaged molecular dynamics simulation showed a semi-liquid probability distribution of the RuBisCO in carboxysomes and correlated well with carboxysome subtomogram averages. Our structural observations reveal the various stages of RuBisCO assemblies, which could be important for understanding cellular function.

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Section: Discussionmentioning

confidence: 99%

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Dai

Chen

Myers

et al. 2018

Journal of Molecular Biology

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“…Under low-DIC conditions, all genes assayed here encoding members of two distinct clusters within the SbtA family, and two clusters of homologs of the Tcr_0853-and Tcr_0854-encoded transporter from H. crunogenus (17), were upregulated, whether adjacent to carboxysome loci or not (Table 2). When genes encoding members of the Chr and SulP families were adjacent to carboxysome loci, they were also upregulated under low-DIC conditions (Table 2).…”

Section: Resultsmentioning

confidence: 98%

“…To determine whether carboxysome-associated transporter gene transcripts were more abundant when cells were grown under low-DIC conditions, taxa that were amenable to cultivation in chemostats were grown under two conditions: DIC limitation (low-DIC condition) and NH 3 limitation (high-DIC condition) (14). Cells were harvested via centrifugation (10,000 ϫ g, 5 min, 4°C), flash-frozen with liquid nitrogen, and stored at -80°C for subsequent RNA extraction using the Ambion RiboPure-Bacteria kit (17). Primers were designed to target genes encoding carboxysome components (csoS2; csoS3; positive control for CCM induction), citrate synthase (calibrator for the 2 -ΔΔCT method) (47), and transporters (Table 4), and qRT-PCR assays were implemented in an Applied Biosystems Step One real-time PCR system, using QuantiTect SYBR green RT-PCR (Qiagen, Inc.) as described in reference 17.…”

Section: Methodsmentioning

confidence: 99%

“…Instead of heating to 95°C, which can cause membrane proteins to aggregate (50), samples were incubated at 37°C for 1 h to facilitate dissolution before they were subjected to SDS-PAGE (51). Coomassie-stained gel fragments were excised from the molecular weight region corresponding to those predicted from the amino acid sequence of the target protein and were processed as described previously (17).…”

Section: Methodsmentioning

confidence: 99%

“…Random and site-directed mutagenesis of the gene loci Tcr_0853 and Tcr_0854, which are located downstream of the carboxysome locus in this organism, result in a high-CO 2 -requiring phenotype and loss of the ability to generate high intracellular DIC concentrations, suggesting that these genes encode a two-component DIC transporter (17). Homologs of these genes are common among autotrophic Bacteria, and one of them (Tcr_0854) is from a protein family without prior biochemical characterization (Pfam10070) (17).…”

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confidence: 99%

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Diversity in CO ₂ -Concentrating Mechanisms among Chemolithoautotrophs from the Genera Hydrogenovibrio , Thiomicrorhabdus , and Thiomicrospira , Ubiquitous in Sulfidic Habitats Worldwide

Scott

Leonard

Boden

et al. 2019

Appl Environ Microbiol

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Members of the generaHydrogenovibrio,Thiomicrospira, andThiomicrorhabdusfix carbon at hydrothermal vents, coastal sediments, hypersaline lakes, and other sulfidic habitats. The genome sequences of these ubiquitous and prolific chemolithoautotrophs suggest a surprising diversity of mechanisms for the uptake and fixation of dissolved inorganic carbon (DIC); these mechanisms are verified here. Carboxysomes are apparent in the transmission electron micrographs of most of these organisms but are lacking inThiomicrorhabdussp. strain Milos-T2 andThiomicrorhabdus arctica, and the inability ofThiomicrorhabdussp. strain Milos-T2 to grow under low-DIC conditions is consistent with the absence of carboxysome loci in its genome. For the remaining organisms, genes encoding potential DIC transporters from four evolutionarily distinct families (Tcr_0853 and Tcr_0854, Chr, SbtA, and SulP) are located downstream of carboxysome loci. Transporter genes collocated with carboxysome loci, as well as some homologs located elsewhere on the chromosomes, had elevated transcript levels under low-DIC conditions, as assayed by reverse transcription-quantitative PCR (qRT-PCR). DIC uptake was measureable via silicone oil centrifugation when a representative of each of the four types of transporter was expressed inEscherichia coli. The expression of these genes in the carbonic anhydrase-deficientE. colistrain EDCM636 enabled it to grow under low-DIC conditions, a result consistent with DIC transport by these proteins. The results from this study expand the range of DIC transporters within the SbtA and SulP transporter families, verify DIC uptake by transporters encoded byTcr_0853andTcr_0854and their homologs, and introduce DIC as a potential substrate for transporters from the Chr family.IMPORTANCEAutotrophic organisms take up and fix DIC, introducing carbon into the biological portion of the global carbon cycle. The mechanisms for DIC uptake and fixation by autotrophicBacteriaandArchaeaare likely to be diverse but have been well characterized only for “Cyanobacteria.” Based on genome sequences, members of the generaHydrogenovibrio,Thiomicrospira, andThiomicrorhabdushave a variety of mechanisms for DIC uptake and fixation. We verified that most of these organisms are capable of growing under low-DIC conditions, when they upregulate carboxysome loci and transporter genes collocated with these loci on their chromosomes. When these genes, which fall into four evolutionarily independent families of transporters, are expressed inE. coli, DIC transport is detected. This expansion in known DIC transporters across four families, from organisms from a variety of environments, provides insight into the ecophysiology of autotrophs, as well as a toolkit for engineering microorganisms for carbon-neutral biochemistries of industrial importance.

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Screening and characterization of mixotrophic sulfide oxidizing bacteria for odorous surface water bioremediation

Sun

Pang

et al. 2019

Bioresource Technology

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Proteomic and Mutant Analysis of the CO ₂ Concentrating Mechanism of Hydrothermal Vent Chemolithoautotroph Thiomicrospira crunogena

Cited by 25 publications

References 61 publications

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Diversity in CO ₂ -Concentrating Mechanisms among Chemolithoautotrophs from the Genera Hydrogenovibrio , Thiomicrorhabdus , and Thiomicrospira , Ubiquitous in Sulfidic Habitats Worldwide

Screening and characterization of mixotrophic sulfide oxidizing bacteria for odorous surface water bioremediation

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Proteomic and Mutant Analysis of the CO 2 Concentrating Mechanism of Hydrothermal Vent Chemolithoautotroph Thiomicrospira crunogena

Cited by 25 publications

References 61 publications

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Visualizing Individual RuBisCO and Its Assembly into Carboxysomes in Marine Cyanobacteria by Cryo-Electron Tomography

Diversity in CO 2 -Concentrating Mechanisms among Chemolithoautotrophs from the Genera Hydrogenovibrio , Thiomicrorhabdus , and Thiomicrospira , Ubiquitous in Sulfidic Habitats Worldwide

Screening and characterization of mixotrophic sulfide oxidizing bacteria for odorous surface water bioremediation

Contact Info

Product

Resources

About

Proteomic and Mutant Analysis of the CO ₂ Concentrating Mechanism of Hydrothermal Vent Chemolithoautotroph Thiomicrospira crunogena

Diversity in CO ₂ -Concentrating Mechanisms among Chemolithoautotrophs from the Genera Hydrogenovibrio , Thiomicrorhabdus , and Thiomicrospira , Ubiquitous in Sulfidic Habitats Worldwide