The single mitochondrion of the kinetoplastid parasite Crithidia fasciculata is a dynamic network

DiMaio, John; Ruthel, Gordon; Cannon, Joshua; Malfara, Madeline F.; Povelones, Megan L.

doi:10.1371/journal.pone.0202711

Cited by 12 publications

(14 citation statements)

References 59 publications

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“…This observation is consistent with the gross morphological changes to the organelle observed during the cell cycle in Crithidia fasciculata , a related, exclusively insect‐infecting trypanosomatid (DiMaio et al. 2018). Indeed, in BSF2, the posterior branch and anterior loop appear to be coming together, a fusion step proposed to give rise to a second mitochondrial tubule needed for cell division.…”

Section: Discussionsupporting

confidence: 88%

Ultrastructural Changes of the Mitochondrion During the Life Cycle of Trypanosomabrucei

Bílý

Sheikh

Mallet

et al. 2021

J Eukaryotic Microbiology

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The mitochondrion is crucial for ATP generation by oxidative phosphorylation, among other processes. Cristae are invaginations of the mitochondrial inner membrane that house nearly all the macromolecular complexes that perform oxidative phosphorylation. The unicellular parasite Trypanosoma brucei undergoes during its life cycle extensive remodeling of its single mitochondrion, which reflects major changes in its energy metabolism. While the bloodstream form (BSF) generates ATP exclusively by substrate‐level phosphorylation and has a morphologically highly reduced mitochondrion, the insect‐dwelling procyclic form (PCF) performs oxidative phosphorylation and has an expanded and reticulated organelle. Here, we have performed high‐resolution 3D reconstruction of BSF and PCF mitochondria, with a particular focus on their cristae. By measuring the volumes and surface areas of these structures in complete or nearly complete cells, we have found that mitochondrial cristae are more prominent in BSF than previously thought and their biogenesis seems to be maintained during the cell cycle. Furthermore, PCF cristae exhibit a surprising range of volumes in situ, implying that each crista is acting as an independent bioenergetic unit. Cristae appear to be particularly enriched in the region of the organelle between the nucleus and kinetoplast, the mitochondrial genome, suggesting this part has distinctive properties.

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Section: Discussionsupporting

confidence: 88%

Ultrastructural Changes of the Mitochondrion During the Life Cycle of Trypanosomabrucei

Bílý

Sheikh

Mallet

et al. 2021

J Eukaryotic Microbiology

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“…Plasmids were electroporated into C . fasciculata CfC1 cells with a BTX-ECM600 device as described [28].…”

Section: Methodsmentioning

confidence: 99%

Dramatic changes in gene expression in different forms of Crithidia fasciculata reveal potential mechanisms for insect-specific adhesion in kinetoplastid parasites

et al. 2019

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Kinetoplastids are a group of parasites that includes several medically-important species. These human-infective species are transmitted by insect vectors in which the parasites undergo specific developmental transformations. For each species, this includes a stage in which parasites adhere to insect tissue via a hemidesmosome-like structure. Although this structure has been described morphologically, it has never been molecularly characterized. We are using Crithidia fasciculata , an insect parasite that produces large numbers of adherent parasites inside its mosquito host, as a model kinetoplastid to investigate both the mechanism of adherence and the signals required for differentiation to an adherent form. An advantage of C . fasciculata is that adherent parasites can be generated both in vitro , allowing a direct comparison to cultured swimming forms, as well as in vivo within the mosquito. Using RNAseq, we identify genes associated with adherence in C . fasciculata . As almost all of these genes have orthologs in other kinetoplastid species, our findings may reveal shared mechanisms of adherence, allowing investigation of a crucial step in parasite development and disease transmission. In addition, dual-RNAseq allowed us to explore the interaction between the parasites and the mosquito. Although the infection is well-tolerated, anti-microbial peptides and other components of the mosquito innate immune system are upregulated. Our findings indicate that C . fasciculata is a powerful model system for probing kinetoplastid-insect interactions.

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“…47 At the molecular scale, multiple and reconfigurable hydrogen bonds 48,49 at the junctions provide strong connections between BANFs replicating, in fact, nanoscale junctions known from biology. 50,51 The BANF aerogel obtained has a density of 0.0081 g/cm 3 while its specific compressive strength reaches up to 102 MPa•cm 3 /g, which is much higher than that of other aerogels. Additionally, the BANF-based aerogel showed large porosity, high special surface area, good thermal stability, and excellent thermal insulation.…”

Section: Introductionmentioning

confidence: 88%

“…In addition to the high stiffness of the aramid nanofibers, 46 thinner segments of the branches can wrap around the thicker ones, substantially strengthening the contacts that are also taking place in many biological tissues based on nanofibers 47 . At the molecular scale, multiple and reconfigurable hydrogen bonds 48,49 at the junctions provide strong connections between BANFs replicating, in fact, nanoscale junctions known from biology 50,51 . The BANF aerogel obtained has a density of 0.0081 g/cm 3 while its specific compressive strength reaches up to 102 MPa·cm 3 /g, which is much higher than that of other aerogels.…”

Section: Introductionmentioning

confidence: 95%

Biomimetic nanoporous aerogels from branched aramid nanofibers combining high heat insulation and compressive strength

et al. 2021

SmartMat

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Materials combining efficient thermal insulation and high mechanical properties are needed in many areas of technology. Various aerogels provide a convenient design framework for thermal insulators, but they are often brittle. Furthermore, the spectrum of advanced properties is constantly expanding while requirements to the degree of control of the three-dimensional gel-forming network is constantly increasing. Here, we report on biomimetic aramid nanofibers aerogels with the structure replicating articular cartilage, prepared by supercritical drying of 3D networks held together by hydrogen bonds. Owing to the branching morphology of the nanofibers, the three-dimensional nanoscale networks with extensive percolation and high interconnectivity can be obtained. The aerogels showed high porosity with an average open pore size of 21.5 nm and correspondingly low specific density of 0.0081 g/cm 3. The aerogels also possess a high compressive strength of 825 kPa at a strain of 80%. Due to the unique aramid chemistry of the parent nanofibers, aramid aerogels combine low thermal conductivity of 0.026 W/m•K with high thermal stability up to 530°C, which is unusually high for polymeric and composite materials of any type, opening a broad range of applications from electronics to space travel.

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The single mitochondrion of the kinetoplastid parasite Crithidia fasciculata is a dynamic network

Cited by 12 publications

References 59 publications

Ultrastructural Changes of the Mitochondrion During the Life Cycle of Trypanosomabrucei

Ultrastructural Changes of the Mitochondrion During the Life Cycle of Trypanosomabrucei

Dramatic changes in gene expression in different forms of Crithidia fasciculata reveal potential mechanisms for insect-specific adhesion in kinetoplastid parasites

Biomimetic nanoporous aerogels from branched aramid nanofibers combining high heat insulation and compressive strength

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