Your search keyword '"Field, Mark C."' showing total 9 results

1. Transcriptome, proteome and draft genome of Euglena gracilis

Author

Ebenezer, ThankGod E., Zoltner, Martin, Burrell, Alana, Nenarokova, Anna, Novák Vanclová, Anna M. G., Prasad, Binod, Soukal, Petr, Santana-Molina, Carlos, O’Neill, Ellis, Nankissoor, Nerissa N., Vadakedath, Nithya, Daiker, Viktor, Obado, Samson, Silva-Pereira, Sara, Jackson, Andrew P., Devos, Damien P., Lukeš, Julius, Lebert, Michael, Vaughan, Sue, Hampl, Vladimίr, Carrington, Mark, Ginger, Michael L., Dacks, Joel B., Kelly, Steven, and Field, Mark C.

Published

2019

2. Transcriptome, proteome and draft genome of Euglena gracilis

Author

Cambridge Commonwealth European and International Trust, University of Cambridge, Medical Research Council (UK), Federal Ministry of Education and Research (Germany), European Research Council, Ministry of Education, Youth and Sports (Czech Republic), Czech Science Foundation, Ebenezer, ThankGod E., Zoltner, Martin, Burrell, Alana, Nenarokova, Anna, Novák Vanclová, Anna M. G., Prasad, Binod, Soukal, Petr, Santana-Molina, Carlos, O’Neill, Ellis, Nankissoor, Nerissa N., Vadakedath, Nithya, Daiker, Viktor, Obado, Samson O., Silva-Pereira, Sara, Jackson, Andrew P., Devos, Damien P., Lukeš, Julius, Lebert, Michael, Vaughan, Sue, Hampl, Vladimir, Carrington, Mark, Ginger, Michael L., Dacks, Joel B., Kelly, Steven, Field, Mark C., Cambridge Commonwealth European and International Trust, University of Cambridge, Medical Research Council (UK), Federal Ministry of Education and Research (Germany), European Research Council, Ministry of Education, Youth and Sports (Czech Republic), Czech Science Foundation, Ebenezer, ThankGod E., Zoltner, Martin, Burrell, Alana, Nenarokova, Anna, Novák Vanclová, Anna M. G., Prasad, Binod, Soukal, Petr, Santana-Molina, Carlos, O’Neill, Ellis, Nankissoor, Nerissa N., Vadakedath, Nithya, Daiker, Viktor, Obado, Samson O., Silva-Pereira, Sara, Jackson, Andrew P., Devos, Damien P., Lukeš, Julius, Lebert, Michael, Vaughan, Sue, Hampl, Vladimir, Carrington, Mark, Ginger, Michael L., Dacks, Joel B., Kelly, Steven, and Field, Mark C.

Abstract

[Background]: Photosynthetic euglenids are major contributors to fresh water ecosystems. Euglena gracilis in particular has noted metabolic flexibility, reflected by an ability to thrive in a range of harsh environments. E. gracilis has been a popular model organism and of considerable biotechnological interest, but the absence of a gene catalogue has hampered both basic research and translational efforts., [Results]: We report a detailed transcriptome and partial genome for E. gracilis Z1. The nuclear genome is estimated to be around 500 Mb in size, and the transcriptome encodes over 36,000 proteins and the genome possesses less than 1% coding sequence. Annotation of coding sequences indicates a highly sophisticated endomembrane system, RNA processing mechanisms and nuclear genome contributions from several photosynthetic lineages. Multiple gene families, including likely signal transduction components, have been massively expanded. Alterations in protein abundance are controlled post-transcriptionally between light and dark conditions, surprisingly similar to trypanosomatids., [Conclusions]: Our data provide evidence that a range of photosynthetic eukaryotes contributed to the Euglena nuclear genome, evidence in support of the ‘shopping bag’ hypothesis for plastid acquisition. We also suggest that euglenids possess unique regulatory mechanisms for achieving extreme adaptability, through mechanisms of paralog expansion and gene acquisition.

Published

2019

3. An automated graphics tool for comparative genomics: the Coulson plot generator.

Author

Field, Helen I., Coulson, Richard M. R., and Field, Mark C.

Subjects

GENETIC research, MOLECULAR genetics, BIOMOLECULES, PROTEINS, HEREDITY

Abstract

Background: Comparative analysis is an essential component to biology. When applied to genomics for example, analysis may require comparisons between the predicted presence and absence of genes in a group of genomes under consideration. Frequently, genes can be grouped into small categories based on functional criteria, for example membership of a multimeric complex, participation in a metabolic or signaling pathway or shared sequence features and/or paralogy. These patterns of retention and loss are highly informative for the prediction of function, and hence possible biological context, and can provide great insights into the evolutionary history of cellular functions. However, representation of such information in a standard spreadsheet is a poor visual means from which to extract patterns within a dataset. Results: We devised the Coulson Plot, a new graphical representation that exploits a matrix of pie charts to display comparative genomics data. Each pie is used to describe a complex or process from a separate taxon, and is divided into sectors corresponding to the number of proteins (subunits) in a complex/process. The predicted presence or absence of proteins in each complex are delineated by occupancy of a given sector; this format is visually highly accessible and makes pattern recognition rapid and reliable. A key to the identity of each subunit, plus hierarchical naming of taxa and coloring are included. A java-based application, the Coulson plot generator (CPG) automates graphic production, with a tab or comma-delineated text file as input and generating an editable portable document format or svg file. Conclusions: CPG software may be used to rapidly convert spreadsheet data to a graphical matrix pie chart format. The representation essentially retains all of the information from the spreadsheet but presents a graphically rich format making comparisons and identification of patterns significantly clearer. While the Coulson plot format is highly useful in comparative genomics, its original purpose, the software can be used to visualize any dataset where entity occupancy is compared between different classes. Availability: CPG software is available at sourceforge http://sourceforge.net/projects/coulson and http://dl.dropbox. com/u/6701906/Web/Sites/Labsite/CPG.html [ABSTRACT FROM AUTHOR]

Published

2013

4. Rab23 is a flagellar protein in Trypanosoma brucei.

Author

Lumb, Jennifer H. and Field, Mark C.

Abstract

Background: Rab small GTPases are important mediators of membrane transport, and orthologues frequently retain similar locations and functions, even between highly divergent taxa. In metazoan organisms Rab23 is an important negative regulator of Sonic hedgehog signaling and is crucial for correct development and differentiation of cellular lineages by virtue of an involvement in ciliary recycling. Previously, we reported that Trypanosoma brucei Rab23 localized to the nuclear envelope [1], which is clearly inconsistent with the mammalian location and function. As T. brucei is unicellular the potential that Rab23 has no role in cell signaling was possible. Here we sought to further investigate the role(s) of Rab23 in T. brucei to determine if Rab23 was an example of a Rab protein with divergent function in distinct taxa. Methods/major findings: The taxonomic distribution of Rab23 was examined and compared with the presence of flagella/cilia in representative taxa. Despite evidence for considerable secondary loss, we found a clear correlation between a conventional flagellar structure and the presence of a Rab23 orthologue in the genome. By epitope-tagging, Rab23 was localized and found to be present at the flagellum throughout the cell cycle. However, RNAi knockdown did not result in a flagellar defect, suggesting that Rab23 is not required for construction or maintenance of the flagellum. Conclusions: The location of Rab23 at the flagellum is conserved between mammals and trypanosomes and the Rab23 gene is restricted to flagellated organisms. These data may suggest the presence of a Rab23-mediated signaling mechanism in trypanosomes. [ABSTRACT FROM AUTHOR]

Published

2011

5. Evidence that low endocytic activity is notdirectly responsible for human serum resistancein the insect form of African trypanosomes.

Author

Natesan, Senthil K. A., Peacock, Lori, Ka Fai Leung, Gibson, Wendy, and Field, Mark C.

Subjects

TRYPANOSOMA brucei, TRYPANOSOMA, SERUM, ENDOCYTOSIS, PARASITES, BLOOD parasites, INSECTS, GLUCOSE, GLYCOPROTEINS, PROTEINS

Abstract

Background: In Trypanosoma brucei, the African trypanosome, endocytosis is developmentally regulated and substantially more active in all known mammalian infective stages. In both mammalian and insect stages endocytic activity is likely required for nutrient acquisition, but in bloodstream forms increased endocytosis is involved in recycling the variant surface glycoprotein and removing host immune factors from the surface. However, a rationale for low endocytic activity in insect stages has not been explored. Here we asked if endocytic downregulation in the procyclic form was associated with resistance to innate trypanolytic immune factors in the blood meal or tsetse fly midgut. Findings: Using a well-characterized procyclic parasite with augmented endocytic flux mediated via TbRab5A overexpression, we found that insect stage parasites were able to grow both in the presence of trypanosome lytic factor (TLF) provided in human serum, and also in tsetse flies. Additionally, by placing blood stage parasites in restricted glucose medium, we observed that enlargement of the flagellar pocket, a key morphology associated with defective endocytosis, manifests in parallel with loss of cellular ATP levels. Conclusions: These observations suggest that a high rate of endocytosis per se is insufficient to render insect form parasites sensitive to TLF or tsetse-derived trypanocidal factors. However, the data do suggest that endocytosis is energetically burdensome, as endocytic activity is rapidly compromised on energy depletion in bloodstream stages. Hence an important aspect of endocytic modulation in the nutrient-poor tsetse midgut is likely energetic conservation. [ABSTRACT FROM AUTHOR]

Published

2010

6. The trypanosome transcriptome is remodelled during differentiation but displays limited responsiveness within life stages.

Author

Koumandou, V. Lila, Natesan, Senthil Kumar A., Sergeenko, Tatiana, and Field, Mark C.

Subjects

GENOMICS, TRYPANOSOMA brucei, GENETIC transcription, GUANOSINE triphosphatase, COATED vesicles, PROTEIN kinases, GENE expression

Abstract

Background: Trypanosomatids utilise polycistronic transcription for production of the vast majority of protein-coding mRNAs, which operates in the absence of gene-specific promoters. Resolution of nascent transcripts by polyadenylation and trans-splicing, together with specific rates of mRNA turnover, serve to generate steady state transcript levels that can differ in abundance across several orders of magnitude and can be developmentally regulated. We used a targeted oligonucleotide microarray, representing the strongly developmentally-regulated T. brucei membrane trafficking system and ~10% of the Trypanosoma brucei genome, to investigate both between-stage, or differentiation-dependent, transcriptome changes and within-stage flexibility in response to various challenges. Results: 6% of the gene cohort are developmentally regulated, including several small GTPases, SNAREs, vesicle coat factors and protein kinases both consistent with and extending previous data. Therefore substantial differentiation-dependent remodeling of the trypanosome transcriptome is associated with membrane transport. Both the microarray and qRT-PCR were then used to analyse transcriptome changes resulting from specific gene over-expression, knockdown, altered culture conditions and chemical stress. Firstly, manipulation of Rab5 expression results in co-ordinate changes to clathrin protein expression levels and endocytotic activity, but no detectable changes to steady-state mRNA levels, which indicates that the effect is mediated post-transcriptionally. Secondly, knockdown of clathrin or the variant surface glycoprotein failed to perturb transcription. Thirdly, exposure to dithiothreitol or tunicamycin revealed no evidence for a classical unfolded protein response, mediated in higher eukaryotes by transcriptional changes. Finally, altered serum levels invoked little transcriptome alteration beyond changes to expression of ESAG6/7, the transferrin receptor. Conclusion: While trypanosomes regulate mRNA abundance to effect the major changes accompanying differentiation, a given differentiated state appears transcriptionally inflexible. The implications of the absence of a transcriptome response in trypanosomes for both virulence and models of life cycle progression are discussed. [ABSTRACT FROM AUTHOR]

Published

2008

7. Control systems for membrane fusion in the ancestral eukaryote; evolution of tethering complexes and SM proteins.

Author

Koumandou, V. Lila, Dacks, Joel B., Coulson, Richard M. R., and Field, Mark C.

Subjects

MEMBRANE fusion, EUKARYOTIC cells, PROTEINS, CELL membranes, BIOLOGICAL evolution

Abstract

Background: In membrane trafficking, the mechanisms ensuring vesicle fusion specificity remain to be fully elucidated. Early models proposed that specificity was encoded entirely by SNARE proteins; more recent models include contributions from Rab proteins, Syntaxin-binding (SM) proteins and tethering factors. Most information on membrane trafficking derives from an evolutionarily narrow sampling of model organisms. However, considering factors from a wider diversity of eukaryotes can provide both functional information on core systems and insight into the evolutionary history of the trafficking machinery. For example, the major Qa/syntaxin SNARE families are present in most eukaryotic genomes and likely each evolved via gene duplication from a single ancestral syntaxin before the existing eukaryotic groups diversified. This pattern is also likely for Rabs and various other components of the membrane trafficking machinery. Results: We performed comparative genomic and phylogenetic analyses, when relevant, on the SM proteins and components of the tethering complexes, both thought to contribute to vesicle fusion specificity. Despite evidence suggestive of secondary losses amongst many lineages, the tethering complexes are well represented across the eukaryotes, suggesting an origin predating the radiation of eukaryotic lineages. Further, whilst we detect distant sequence relations between GARP, COG, exocyst and DSL1 components, these similarities most likely reflect convergent evolution of similar secondary structural elements. No similarity is found between the TRAPP and HOPS complexes and the other tethering factors. Overall, our data favour independent origins for the various tethering complexes. The taxa examined possess at least one homologue of each of the four SM protein families; since the four monophyletic families each encompass a wide diversity of eukaryotes, the SM protein families very likely evolved before the last common eukaryotic ancestor (LCEA). Conclusion: These data further support a highly complex LCEA and indicate that the basic architecture of the trafficking system is remarkably conserved and ancient, with the SM proteins and tethering factors having originated very early in eukaryotic evolution. However, the independent origin of the tethering complexes suggests a novel pattern for increasing complexity in the membrane trafficking system, in addition to the pattern of paralogous machinery elaboration seen thus far. [ABSTRACT FROM AUTHOR]

Published

2007

8. Transcriptome, proteome and draft genome of Euglena gracilis

Author

Steven L. Kelly, Vladimír Hampl, Nithya Vadakedath, Julius Lukeš, Nerissa N. Nankissoor, Mark Carrington, Andrew P. Jackson, Samson O. Obado, Petr Soukal, Anna Nenarokova, Michael Lebert, Damien P. Devos, Anna M. G. Novák Vanclová, Joel B. Dacks, ThankGod E. Ebenezer, Sue Vaughan, Binod Prasad, Sara Silva-Pereira, Alana Burrell, Viktor Daiker, Martin Zoltner, Carlos Santana-Molina, Mark C. Field, Michael L. Ginger, Ellis C. O’Neill, Cambridge Commonwealth European and International Trust, University of Cambridge, Medical Research Council (UK), Federal Ministry of Education and Research (Germany), European Research Council, Ministry of Education, Youth and Sports (Czech Republic), Czech Science Foundation, Apollo - University of Cambridge Repository, and Field, Mark C [0000-0002-4866-2885]

Subjects

Euglena gracilis, Nuclear gene, Proteome, Physiology, Plastid, ved/biology.organism_classification_rank.species, Plant Science, Computational biology, Biology, Splicing, Genome, General Biochemistry, Genetics and Molecular Biology, Transcriptomes, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Secondary endosymbiosis, Structural Biology, ddc:570, Coding region, Excavata, Plastids, lcsh:QH301-705.5, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Cell Nucleus, 0303 health sciences, ved/biology, Cell Biology, Horizontal gene transfer, Naturwissenschaftliche Fakultät, 3. Good health, lcsh:Biology (General), Gene architecture, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Research Article, Developmental Biology, Biotechnology, Cellular evolution

Abstract

© The Author(s) 2019 ., [Background]: Photosynthetic euglenids are major contributors to fresh water ecosystems. Euglena gracilis in particular has noted metabolic flexibility, reflected by an ability to thrive in a range of harsh environments. E. gracilis has been a popular model organism and of considerable biotechnological interest, but the absence of a gene catalogue has hampered both basic research and translational efforts., [Results]: We report a detailed transcriptome and partial genome for E. gracilis Z1. The nuclear genome is estimated to be around 500 Mb in size, and the transcriptome encodes over 36,000 proteins and the genome possesses less than 1% coding sequence. Annotation of coding sequences indicates a highly sophisticated endomembrane system, RNA processing mechanisms and nuclear genome contributions from several photosynthetic lineages. Multiple gene families, including likely signal transduction components, have been massively expanded. Alterations in protein abundance are controlled post-transcriptionally between light and dark conditions, surprisingly similar to trypanosomatids., [Conclusions]: Our data provide evidence that a range of photosynthetic eukaryotes contributed to the Euglena nuclear genome, evidence in support of the ‘shopping bag’ hypothesis for plastid acquisition. We also suggest that euglenids possess unique regulatory mechanisms for achieving extreme adaptability, through mechanisms of paralog expansion and gene acquisition., This work was supported by the Yousef Jameel Academic Program (through the Yousef Jameel PhD Scholarship), the Cambridge Commonwealth, European and International Trust, the Cambridge University Student Registry, the Cambridge Philosophical Society (all to TEE), the Medical Research Council (Grant #: P009018/1 to MCF), and German Aerospace Center - DLR, Cologne, on the behalf of Federal Ministry of Education and Research (BMBF), Germany (Grant no: 50WB1128 and 50WB1528 to ML), the European Research Council CZ LL1601 BFU2013-40866-P (to DPD) and the Czech Ministry of Education, Youth and Sports - National Sustainability Program II (Project BIOCEV-FAR) LQ 1604, by the project BIOCEV (CZ.1.05/1.1.00/02.0109), by the Centre for research of pathogenicity and virulence of parasites CZ.02.1.01/0.0/0.0/16_019/0000759 and by the Czech Science Foundation project nr. 16-25280S (to VH, AV and PS).

Published

2019

9. Evidence that low endocytic activity is not directly responsible for human serum resistance in the insect form of African trypanosomes.

Author

Natesan SK, Peacock L, Leung KF, Gibson W, and Field MC

Abstract

Background: In Trypanosoma brucei, the African trypanosome, endocytosis is developmentally regulated and substantially more active in all known mammalian infective stages. In both mammalian and insect stages endocytic activity is likely required for nutrient acquisition, but in bloodstream forms increased endocytosis is involved in recycling the variant surface glycoprotein and removing host immune factors from the surface. However, a rationale for low endocytic activity in insect stages has not been explored. Here we asked if endocytic down-regulation in the procyclic form was associated with resistance to innate trypanolytic immune factors in the blood meal or tsetse fly midgut., Findings: Using a well-characterized procyclic parasite with augmented endocytic flux mediated via TbRab5A overexpression, we found that insect stage parasites were able to grow both in the presence of trypanosome lytic factor (TLF) provided in human serum, and also in tsetse flies. Additionally, by placing blood stage parasites in restricted glucose medium, we observed that enlargement of the flagellar pocket, a key morphology associated with defective endocytosis, manifests in parallel with loss of cellular ATP levels., Conclusions: These observations suggest that a high rate of endocytosis per se is insufficient to render insect form parasites sensitive to TLF or tsetse-derived trypanocidal factors. However, the data do suggest that endocytosis is energetically burdensome, as endocytic activity is rapidly compromised on energy depletion in bloodstream stages. Hence an important aspect of endocytic modulation in the nutrient-poor tsetse midgut is likely energetic conservation.

Published

2010