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3. IMA genome-F18

Author

Visagie, Cobus M., Magistà, Donato, Ferrara, Massimo, Balocchi, Felipe, Duong, Tuan A., Eichmeier, Ales, Gramaje, David, Aylward, Janneke, Baker, Scott E., Barnes, Irene, Calhoun, Sara, De Angelis, Maria, Frisvad, Jens C., Hakalova, Eliska, Hayes, Richard D., Houbraken, Jos, Grigoriev, Igor V., LaButti, Kurt, Leal, Catarina, Lipzen, Anna, Ng, Vivian, Pangilinan, Jasmyn, Pecenka, Jakub, Perrone, Giancarlo, Piso, Anja, Savage, Emily, Spetik, Milan, Wingfield, Michael J., Zhang, Yu, and Wingfield, Brenda D.

Published
2023
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4. Investigation of inter- and intraspecies variation through genome sequencing of Aspergillussection Nigri

Author

Vesth, Tammi C., Nybo, Jane L., Theobald, Sebastian, Frisvad, Jens C., Larsen, Thomas O., Nielsen, Kristian F., Hoof, Jakob B., Brandl, Julian, Salamov, Asaf, Riley, Robert, Gladden, John M., Phatale, Pallavi, Nielsen, Morten T., Lyhne, Ellen K., Kogle, Martin E., Strasser, Kimchi, McDonnell, Erin, Barry, Kerrie, Clum, Alicia, Chen, Cindy, LaButti, Kurt, Haridas, Sajeet, Nolan, Matt, Sandor, Laura, Kuo, Alan, Lipzen, Anna, Hainaut, Matthieu, Drula, Elodie, Tsang, Adrian, Magnuson, Jon K., Henrissat, Bernard, Wiebenga, Ad, Simmons, Blake A., Mäkelä, Miia R., de Vries, Ronald P., Grigoriev, Igor V., Mortensen, Uffe H., Baker, Scott E., and Andersen, Mikael R.

Abstract

Aspergillussection Nigricomprises filamentous fungi relevant to biomedicine, bioenergy, health, and biotechnology. To learn more about what genetically sets these species apart, as well as about potential applications in biotechnology and biomedicine, we sequenced 23 genomes de novo, forming a full genome compendium for the section (26 species), as well as 6 Aspergillus nigerisolates. This allowed us to quantify both inter- and intraspecies genomic variation. We further predicted 17,903 carbohydrate-active enzymes and 2,717 secondary metabolite gene clusters, which we condensed into 455 distinct families corresponding to compound classes, 49% of which are only found in single species. We performed metabolomics and genetic engineering to correlate genotypes to phenotypes, as demonstrated for the metabolite aurasperone, and by heterologous transfer of citrate production to Aspergillus nidulans. Experimental and computational analyses showed that both secondary metabolism and regulation are key factors that are significant in the delineation of Aspergillusspecies.

Published
2018
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5. Approaches to understanding protein hypersecretion in fungi.

Author

Reilly, Morgann C., Magnuson, Jon K., and Baker, Scott E.

Abstract

Fungi are well known for secreting high levels of proteins. A number of strategies have been used to characterize and maximize protein secretion for industrial purposes. In this review, we highlight three different ascomycetes and focus on a specific protein production example for each. Aspergillus niger has been utilized as a production host for amylases and multiple molecular genetic approaches have been applied to increase secretion in this organism. Saccharification of plant biomass is an integral part of biofuel production and classical genetic and genomic approaches have been used in Trichoderma reesei to understand and manipulate the pathways controlling secretion of plant cell wall degrading enzymes. Finally, Neurospora crassa , a model filamentous ascomycete has been exploited to understand a wide range of biological processes including protein secretion. [ABSTRACT FROM AUTHOR]

Published
2016
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6. Thermoascus aurantiacus is an Intriguing Host for the Industrial Production of Cellulases

Author

Schuerg, Timo, Gabriel, Raphael, Baecker, Nora, Baker, Scott E., and Singer, Steven W.

Abstract

Background: The conversion of biomass to fuels and chemicals is an important technology to replace petroleum as a transportation fuel which will ease climate effects of burning fossil fuels. Recent advances in cellulosic ethanol production have enabled the establishment of commercial scale plants that produce ethanol for transportation fuel. Thermotolerant cellulase enzymatic mixtures from thermophilic fungi are an attractive alternative to currently available commercial cellulase cocktails. Methods: Thermoascus aurantiacus is a thermophilic ascomycete fungus within the order of Eurotiales that was first isolated by Miehe in 1907. Strains of T. aurantiacus have been isolated from a variety of terrestrial environments, which all have been shown to be homothallic and produce large amounts of ascopores with an optimal growth temperature at ~50?C. T. aurantiacus secretes high titers of cellulases (>1 g/L) when grown in the presence of plant biomass substrates and produces a remarkably simple cellulase mixture consisting of GH7 cellobiohydrolase, GH5 endoglucanase, AA9 lytic polysaccharide monooxygenase and GH3 beta-glucosidase. Results: In this mini-review, the biology and enzymology underlying cellulase production are described and an approach to developing T. aurantiacus strains for industrial cellulase production is outlined. Conclusion: The properties of T. aurantiacus and the thermotolerant cellulase mixture it produces may be the basis for new enzymatic cocktails to produce sugars from plant biomass that can be converted to biofuels.

Published
2017

7. Hydrogenosomes of Anaerobic Chytrids: An Alternative Way to Adapt to Anaerobic Environments.

Author

Tachezy, Jan, Hackstein, Johannes H. P., Baker, Scott E., van Hellemond, Jaap J., and Tielens, Aloysius G. M.

Abstract

Fungi form a very diverse group of eukaryotes. The majority of investigated fungi contain mitochondria and are capable of oxidative phosphorylation. On the other hand, anaerobically functioning chytridiomycete fungi, found as symbionts in the gastrointestinal tract of many herbivorous mammals, contain hydrogenosomes. These organelles are found in multiple classes of protozoa and catabolize glycolytic end products and produce hydrogen and ATP by substrate-level phosphorylation. However, in contrast to the hydrogenosomes of trichomonads and anaerobic ciliates, the hydrogenosomes of the anaerobic chytrids Neocallimastix and Piromyces lack pyruvate dehydrogenase (PDH) and pyruvate-ferrodoxin oxidoreductase (PFO) and instead contain pyruvate-formate lyase (PFL). The function in carbohydrate metabolism of these hydrogenosomes of anaerobic chytridiomycete fungi and their evolutionary relation to fungal mitochondria is discussed. [ABSTRACT FROM AUTHOR]

Published
2008
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8. Tuning a high performing multiplexed-CRISPRi Pseudomonas putidastrain to further enhance indigoidine production

Author

Czajka, Jeffrey J., Banerjee, Deepanwita, Eng, Thomas, Menasalvas, Javier, Yan, Chunsheng, Munoz, Nathalie Munoz, Poirier, Brenton C., Kim, Young-Mo, Baker, Scott E., Tang, Yinjie J., and Mukhopadhyay, Aindrila

Abstract

In this study, a 14-gene edited Pseudomonas putidaKT2440 strain for heterologous indigoidine production was examined using three distinct omic datasets. Transcriptomic data indicated that CRISPR/dCpf1-interference (CRISPRi) mediated multiplex repression caused global gene expression changes, implying potential undesirable changes in metabolic flux. 13C-metabolic flux analysis (13C-MFA) revealed that the core P. putidaflux network after CRISPRi repression was conserved, with moderate reduction of TCA cycle and pyruvate shunt activity along with glyoxylate shunt activation during glucose catabolism. Metabolomic results identified a change in intracellular TCA metabolites and extracellular metabolite secretion profiles (sugars and succinate overflow) in the engineered strains. These omic analyses guided further strain engineering, with a random mutagenesis screen first identifying an optimal ribosome binding site (RBS) for Cpf1 that enabled stronger product-substrate pairing (1.6–fold increase). Then, deletion strains were constructed with excision of the PHA operon (ΔphaAZC-IID) resulting in a 2.2–fold increase in indigoidine titer over the optimized Cpf1-RBS construct at the end of the growth phase (∼6 h). The maximum indigoidine titer (at 72 h) in the ΔphaAZC-IIDstrain had a 1.5–fold and 1.8–fold increase compared to the optimized Cpf1-RBS construct and the original strain, respectively. Overall, this study demonstrated that integration of omic data types is essential for understanding responses to complex metabolic engineering designs and directly quantified the effect of such modifications on central metabolism.

Published
2022
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9. Itaconic acid production is regulated by LaeA in Aspergillus pseudoterreus

Author

Pomraning, Kyle R., Dai, Ziyu, Munoz, Nathalie, Kim, Young-Mo, Gao, Yuqian, Deng, Shuang, Lemmon, Teresa, Swita, Marie S., Zucker, Jeremy D., Kim, Joonhoon, Mondo, Stephen J., Panisko, Ellen, Burnet, Meagan C., Webb-Robertson, Bobbie-Jo M., Hofstad, Beth, Baker, Scott E., Burnum-Johnson, Kristin E., and Magnuson, Jon K.

Abstract

The global regulator LaeA controls secondary metabolism in diverse Aspergillus species. Here we explored its role in regulation of itaconic acid production in Aspergillus pseudoterreus. To understand its role in regulating metabolism, we deleted and overexpressed laeA,and assessed the transcriptome, proteome, and secreted metabolome prior to and during initiation of phosphate limitation induced itaconic acid production. We found that secondary metabolite clusters, including the itaconic acid biosynthetic gene cluster, are regulated by laeAand that laeAis required for high yield production of itaconic acid. Overexpression of LaeA improves itaconic acid yield at the expense of biomass by increasing the expression of key biosynthetic pathway enzymes and attenuating the expression of genes involved in phosphate acquisition and scavenging. Increased yield was observed in optimized conditions as well as conditions containing excess nutrients that may be present in inexpensive sugar containing feedstocks such as excess phosphate or complex nutrient sources. This suggests that global regulators of metabolism may be useful targets for engineering metabolic flux that is robust to environmental heterogeneity.

Published
2022
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11. Fungal genome sequencing and bioenergy.

Author

Baker, Scott E., Thykaer, Jette, Adney, William S., Brettin, Thomas S., Brockman, Fred J., D'haeseleer, Patrik, Martinez, A. Diego, Miller, R. Michael, Rokhsar, Daniel S., Schadt, Christopher W., Torok, Tamas, Tuskan, Gerald, Bennett, Joan, Berka, Randy M., Briggs, Steven P., Heitman, Joseph, Taylor, John, Gillian Turgeon, B., Werner-Washburne, Margaret, and Himmel, Michael E.

Subjects
FUNGAL genetics, GENETIC code, FUNGAL gene expression, GENOMES, PATHOGENIC microorganisms, BIOMASS energy
Abstract

Abstract: To date, the number of ongoing filamentous fungal genome sequencing projects is almost tenfold fewer than those of bacterial and archaeal genome projects. The fungi chosen for sequencing represent narrow kingdom diversity; most are pathogens or models. We advocate an ambitious, forward-looking phylogenetic-based genome sequencing program, designed to capture metabolic diversity within the fungal kingdom, thereby enhancing research into alternative bioenergy sources, bioremediation, and fungal-environment interactions. [Copyright &y& Elsevier]

Published
2008
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12. Comparative Genomics Analysis of Trichoderma reeseiStrains

Author

Koike, Hideaki, Aerts, Andrea, LaButti, Kurt, Grigoriev, Igor V., and Baker, Scott E.

Abstract

AbstractTrichoderma reesei is a key fungus for industrial production of lignocellulolytic enzymes. The genome sequences of theT. reesei hyper-cellulolytic strain RUT-C30 and its parental strain QM6a were compared at the nucleotide level. Approximately 97% of the 87 genomic-sequence scaffolds ofT. reesei QM6a (33Mb) were found to have the corresponding nucleotide in the 182 genome-sequence scaffolds of RUT-C30 (32Mb). There are 455 loci within the QM6 sequence not detected in the RUT-C30 sequence. Regions at the termini of QM6a scaffolds as well as 14 small scaffolds do not have corresponding regions in RUT-C30 genomic scaffolds. Seventy-eight protein-encoding genes are included within these regions. Mutated nucleotide(s) in 2,371 positions, including short insertion/deletions (indels), were detected in the aligned regions. The predicted protein-coding regions of 97 gene models contain mutations, 34 of which were not previously described. Twenty-seven out of 34 newly discovered genes were found to have mutations in the peptide amino acid sequence. This is in addition to 63 genes described in a previous study based on low coverage sequencing of RUT-C30. These newly identified proteins are involved in signal transduction, transcription, RNA processing and modification, and post-translational modification according to their annotations. Similar distributions of eukaryotic orthologous group (KOG) categories between the mutated and all other proteins suggest random mutation. The roles of the mutated genes and potential regulatory regions in the observed phenotype of RUT-C30 remain to be explored in a targeted fashion.

Published
2013
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13. The Polyketide Synthase Gene pks4of Trichoderma reeseiProvides Pigmentation and Stress Resistance

Author

Atanasova, Lea, Knox, Benjamin P., Kubicek, Christian P., Druzhinina, Irina S., and Baker, Scott E.

Abstract

ABSTRACTSpecies of the fungal genus Trichoderma(Hypocreales, Ascomycota) are well-known for their production of various secondary metabolites. Nonribosomal peptides and polyketides represent a major portion of these products. In a recent phylogenomic investigation of Trichodermapolyketide synthase (PKS)-encoding genes, the pks4from T. reeseiwas shown to be an orthologue of pigment-forming PKSs involved in synthesis of aurofusarin and bikaverin in Fusariumspp. In this study, we show that deletion of this gene in T. reeseiresults in loss of green conidial pigmentation and in pigmentation alteration of teleomorph structures. It also has an impact on conidial cell wall stability and the antagonistic abilities of T. reeseiagainst other fungi, including formation of inhibitory metabolites. In addition, deletion of pks4significantly influences the expression of other PKS-encoding genes of T. reesei. To our knowledge, this is the first indication that a low-molecular-weight pigment-forming PKS is involved in defense, mechanical stability, and stress resistance in fungi.

Published
2013
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14. Online Hydrophilic Interaction Chromatography (HILIC) Enhanced Top-Down Mass Spectrometry Characterization of the SARS-CoV-2 Spike Receptor-Binding Domain

Author

Wilson, Jesse W., Bilbao, Aivett, Wang, Juan, Liao, Yen-Chen, Velickovic, Dusan, Wojcik, Roza, Passamonti, Marta, Zhao, Rui, Gargano, Andrea F. G., Gerbasi, Vincent R., Pas̆a-Tolić, Ljiljana, Baker, Scott E., and Zhou, Mowei

Abstract

SARS-CoV-2 cellular infection is mediated by the heavily glycosylated spike protein. Recombinant versions of the spike protein and the receptor-binding domain (RBD) are necessary for seropositivity assays and can potentially serve as vaccines against viral infection. RBD plays key roles in the spike protein’s structure and function, and thus, comprehensive characterization of recombinant RBD is critically important for biopharmaceutical applications. Liquid chromatography coupled to mass spectrometry has been widely used to characterize post-translational modifications in proteins, including glycosylation. Most studies of RBDs were performed at the proteolytic peptide (bottom-up proteomics) or released glycan level because of the technical challenges in resolving highly heterogeneous glycans at the intact protein level. Herein, we evaluated several online separation techniques: (1) C2 reverse-phase liquid chromatography (RPLC), (2) capillary zone electrophoresis (CZE), and (3) acrylamide-based monolithic hydrophilic interaction chromatography (HILIC) to separate intact recombinant RBDs with varying combinations of glycosylations (glycoforms) for top-down mass spectrometry (MS). Within the conditions we explored, the HILIC method was superior to RPLC and CZE at separating RBD glycoforms, which differ significantly in neutral glycan groups. In addition, our top-down analysis readily captured unexpected modifications (e.g., cysteinylation and N-terminal sequence variation) and low abundance, heavily glycosylated proteoforms that may be missed by using glycopeptide data alone. The HILIC top-down MS platform holds great potential in resolving heterogeneous glycoproteins for facile comparison of biosimilars in quality control applications.

Published
2022
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15. Phenotype to genotype in Neurospora crassa: Association of the scumbophenotype with mutations in the gene encoding ceramide C9-methyltransferase

Author

Bredeweg, Erin L., McCluskey, Kevin, and Baker, Scott E.

Abstract

•Genome resequencing of classical genetic mutant strains associated gene with phenotype•Neurospora crassagene scumboencodes a ceramide C9-methyltransferase•Deletion of Neurospora crassaceramide C9-methyltransferase encoding gene is viable

Published
2022
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16. Activation of an AP1-Like Transcription Factor of the Maize Pathogen Cochliobolus heterostrophus in Response to Oxidative Stress and Plant Signals

Author

Lev, Sophie, Hadar, Ruthi, Amedeo, Paolo, Baker, Scott E., Yoder, O. C., and Horwitz, Benjamin A.

Abstract

Redox sensing is a ubiquitous mechanism regulating cellular activity. Fungal pathogens face reactive oxygen species produced by the host plant's oxidative burst in addition to endogenous reactive oxygen species produced during aerobic metabolism. An array of preformed and induced detoxifying enzymes, including superoxide dismutase, catalases, and peroxidases, could allow fungi to infect plants despite the oxidative burst. We isolated a gene (CHAP1) encoding a redox-regulated transcription factor in Cochliobolus heterostrophus, a fungal pathogen of maize. CHAP1 is a bZIP protein that possesses two cysteine-rich domains structurally and functionally related to Saccharomyces cerevisiae YAP1. Deletion of CHAP1 in C. heterostrophus resulted in decreased resistance to oxidative stress caused by hydrogen peroxide and menadione, but the virulence of chap1 mutants was unaffected. Upon activation by oxidizing agents or plant signals, a green fluorescent protein (GFP)-CHAP1 fusion protein became localized in the nucleus. Expression of genes encoding antioxidant proteins was induced in the wild type but not in chap1 mutants. Activation of CHAP1 occurred from the earliest stage of plant infection, in conidial germ tubes on the leaf surface, and persisted during infection. Late in the course of infection, after extensive necrotic lesions were formed, GFP-CHAP1 redistributed to the cytosol in hyphae growing on the leaf surface. Localization of CHAP1 to the nucleus may, through changes in the redox state of the cell, provide a mechanism linking extracellular cues to transcriptional regulation during the plant-pathogen interaction.

Published
2005

17. Activation of an AP1-Like Transcription Factor of the Maize Pathogen Cochliobolus heterostrophusin Response to Oxidative Stress and Plant Signals

Author

Lev, Sophie, Hadar, Ruthi, Amedeo, Paolo, Baker, Scott E., Yoder, O. C., and Horwitz, Benjamin A.

Abstract

ABSTRACTRedox sensing is a ubiquitous mechanism regulating cellular activity. Fungal pathogens face reactive oxygen species produced by the host plant's oxidative burst in addition to endogenous reactive oxygen species produced during aerobic metabolism. An array of preformed and induced detoxifying enzymes, including superoxide dismutase, catalases, and peroxidases, could allow fungi to infect plants despite the oxidative burst. We isolated a gene (CHAP1) encoding a redox-regulated transcription factor in Cochliobolus heterostrophus, a fungal pathogen of maize. CHAP1 is a bZIP protein that possesses two cysteine-rich domains structurally and functionally related to Saccharomyces cerevisiaeYAP1. Deletion of CHAP1in C. heterostrophusresulted in decreased resistance to oxidative stress caused by hydrogen peroxide and menadione, but the virulence of chap1mutants was unaffected. Upon activation by oxidizing agents or plant signals, a green fluorescent protein (GFP)-CHAP1 fusion protein became localized in the nucleus. Expression of genes encoding antioxidant proteins was induced in the wild type but not in chap1mutants. Activation of CHAP1 occurred from the earliest stage of plant infection, in conidial germ tubes on the leaf surface, and persisted during infection. Late in the course of infection, after extensive necrotic lesions were formed, GFP-CHAP1 redistributed to the cytosol in hyphae growing on the leaf surface. Localization of CHAP1 to the nucleus may, through changes in the redox state of the cell, provide a mechanism linking extracellular cues to transcriptional regulation during the plant-pathogen interaction.

Published
2005
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18. Nuclear import of activated D-ERK by DIM-7, an importin family member encoded by the gene moleskin

Author

Lorenzen, James A., Baker, Scott E., Denhez, Fabienne, Melnick, Michael B., Brower, Danny L., and Perkins, Lizabeth A.

Abstract

The initiation of gene expression in response to Drosophila receptor tyrosine kinase signaling requires the nuclear import of the MAP kinase, D-ERK. However, the molecular details of D-ERK translocation are largely unknown. In this regard, we have identified D-Importin-7 (DIM-7), the Drosophila homolog of vertebrate importin 7, and its gene moleskin. DIM-7 exhibits a dynamic nuclear localization pattern that overlaps the spatial and temporal profile of nuclear, activated D-ERK. Co-immunoprecipitation experiments show that DIM-7 associates with phosphorylated D-ERK in Drosophila S2 cells. Furthermore, moleskin mutations enhance hypomorphic and suppress hypermorphic D-ERK mutant phenotypes. Deletion or mutation of moleskin dramatically reduces the nuclear localization of activated D-ERK. Directly linking DIM-7 to its nuclear import, this defect can be rescued by the expression of wild-type DIM-7. Mutations in the Drosophila Importin β homolog Ketel, also reduce the nuclear localization of activated D-ERK. Together, these data indicate that DIM-7 and Ketel are components of the nuclear import machinery for activated D-ERK.

Published
2001
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19. A Cell Signal Pathway Involving Laminin-5, α3β1 Integrin, and Mitogen-activated Protein Kinase Can Regulate Epithelial Cell Proliferation

Author

Gonzales, Meredith, Haan, Keith, Baker, Scott E., Fitchmun, Mark, Todorov, Ivan, Weitzman, Sigmund, and Jones, Jonathan C.R.

Abstract

Laminin-5 (LN5) is a matrix component of epithelial tissue basement membranes and plays an important role in the initiation and maintenance of epithelial cell anchorage to the underlying connective tissue. Here we show that two distinct LN5 function-inhibitory antibodies, both of which bind the globular domain of the α3 subunit, inhibit proliferation of epithelial cells. These same antibodies also induce a decrease in mitogen-activated protein kinase activity. Inhibition of proliferation by the function-perturbing LN5 antibodies is reversed upon removal of the antibodies and can be overcome by providing the antibody-treated cells with exogenous LN5 and rat tail collagen. Because epithelial cells use the integrin receptor α3β1 to interact with both LN5 and rat tail collagen, we next investigated the possibility that integrin α3β1 is involved in mediating the proliferative impact of LN5. Proliferation of human epithelial cells is significantly inhibited by a function-perturbing α3 integrin antibody. In addition, antibody activation of β1 integrin restores the proliferation of epithelial cells treated with LN5 function-perturbing antibodies. These data indicate that a complex comprising LN5 and α3β1 integrin is multifunctional and contributes not only to epithelial cell adhesion but also to the regulation of cell growth via a signaling pathway involving mitogen-activated protein kinase. We discuss our study in light of recent evidence that LN5 expression is up-regulated at the leading tips of tumors, where it may play a role in tumor cell proliferation.

Published
1999
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20. The PS Integrins Are Required for a Regulatory Event during DrosophilaWing Morphogenesis a

Author

BRABANT, MARC C., FRISTROM, DIANNE, BUNCH, THOMAS A., BAKER, SCOTT E., and BROWER, DANNY L.

Abstract

The PS1 and PS2 integrins are required for morphogenesis of the adult Drosophilawing. Clonal analysis experiments have shown that both integrins are necessary to maintain adhesion between the dorsal and ventral wing epithelia. We have found that early in wing morphogenesis, the integrins are also required for a regulatory event, and this may explain why PS1 and PS2 must be expressed on opposite surfaces of the wing at the onset of pupariation. Overexpression of integrin subunits during this early phase can lead to separation of dorsal and ventral surfaces, and we present evidence here that this dominant phenotype (the Blistermaker phenotype) results from a gain of integrin function, as opposed to negative interference from free integrin subunits. A possible model for an integrin signaling requirement in the wing is discussed.

Published
1998
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21. Morphogenetic Effects of Soluble Laminin-5 on Cultured Epithelial Cells and Tissue Explants

Author

Baker, Scott E., Dipasquale, Anthony P., Stock, E.Lee, Quaranta, Vito, Fitchmun, mark, and Jones, Jonathan C.R.

Abstract

The rat cell line 804G assembles an extracellular matrix which induces not only the rapid adhesion and spreading of epithelial cells but also the assembly of a cell–matrix attachment device called the hemidesmosome. The major component of this matrix is laminin-5. We have purified rat laminin-5 from medium conditioned by 804G cells. Epithelial cells which are co-incubated with medium supplemented with soluble laminin-5 adhere and spread rapidly. Furthermore, human carcinoma cells undergo a dramatic morphologic change in the presence of laminin-5 and form orderly arrays resembling epithelial sheets. Soluble rat laminin-5 is selectively incorporated into an insoluble matrix of epithelial cellsin vitro,since rat-specific laminin-5 antibodies stain cell–substrate contacts. Addition of medium containing soluble laminin-5 to explanted, human corneal rims induces assembly of hemidesmosomes, important cell–matrix attachment devices. Furthermore, rat-specific laminin-5 antibodies stain areas of contact between corneal epithelium and basement membrane, indicating that rat laminin-5 from the medium is incorporated into basement membrane. We discuss the use of laminin-5 as a medium supplement for the culture of both epithelial cells and epithelial tissue explants.

Published
1996
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23. Laminin-5 and hemidesmosomes: role of the α3 chain subunit in hemidesmosome stability and assembly

Author

Baker, Scott E., Hopkinson, Susan B., Fitchmun, Mark, Andreason, Grai L., Frasier, Francine, Plopper, George, Quaranta, Vito, and Jones, Jonathan C. R.

Abstract

Hemidesmosomes are complex macromolecular structures which integrate elements of the extracellular matrix and the cytoskeleton of epithelial cells. To characterize cell-matrix interactions in the hemidesmosome, we have made use of 804G cells which possess the unusual ability to assemble hemidesmosomes in vitro. During the course of our studies, we have raised a set of monoclonal antibodies against rat laminin-5, the major structural element comprising 804G matrix. One of these, termed CM6, recognizes the 150 kDa α chain of rat laminin-5 and binds the globular (G) domain of intact laminin-5 molecules as determined by rotary shadowing. CM6 antibodies perturb formed hemidesmosomes in 804G cells. In particular, within 1 hour of incubation of 804G cells with CM6 antibodies, colocalization of laminin-5 and α6β4 integrin is lost and by 2 hours, staining generated by hemidesmosomal antibodies appears primarily cytoplasmic in the perinuclear zone. Ultrastructurally, CM6 antibodies first appear to induce detachment of hemidesmosomes from the underlying matrix. Next, portions of the basal cell surface invaginate to form vesicles whose cytoplasmic-facing surface is coated with hemidesmosomes still associated with keratin intermediate filaments. Anchoring filaments extend into the inside compartment of the vesicles. We have also studied the impact of CM6 antibodies on a model system in which the matrix of 804G cells induces de novo assembly of hemidesmosomes in human keratinocytes. This process involves the plasma membrane reorganization of the hemidesmosome associated integrin α6β4 as well as a redistribution of other hemidesmosome components such as the 230 kDa bullous pemphigoid antigen. Pretreatment of 804G matrix with CM6 antibodies blocks such plasma membrane reorganization of hemidesmosome components and inhibits hemidesmosome formation. Our studies indicate a crucial role for the G domain of the α chain of laminin-5 in both nucleation of hemidesmosome assembly as well as maintenance of hemidesmosome structural integrity.

Published
1996
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26. Circadian Proteomic Analysis Uncovers Mechanisms of Post-Transcriptional Regulation in Metabolic Pathways

Author

Hurley, Jennifer M., Jankowski, Meaghan S., De los Santos, Hannah, Crowell, Alexander M., Fordyce, Samuel B., Zucker, Jeremy D., Kumar, Neeraj, Purvine, Samuel O., Robinson, Errol W., Shukla, Anil, Zink, Erika, Cannon, William R., Baker, Scott E., Loros, Jennifer J., and Dunlap, Jay C.

Abstract

Transcriptional and translational feedback loops in fungi and animals drive circadian rhythms in transcript levels that provide output from the clock, but post-transcriptional mechanisms also contribute. To determine the extent and underlying source of this regulation, we applied newly developed analytical tools to a long-duration, deeply sampled, circadian proteomics time course comprising half of the proteome. We found a quarter of expressed proteins are clock regulated, but >40% of these do not arise from clock-regulated transcripts, and our analysis predicts that these protein rhythms arise from oscillations in translational rates. Our data highlighted the impact of the clock on metabolic regulation, with central carbon metabolism reflecting both transcriptional and post-transcriptional control and opposing metabolic pathways showing peak activities at different times of day. The transcription factor CSP-1 plays a role in this metabolic regulation, contributing to the rhythmicity and phase of clock-regulated proteins.

Published
2018
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27. Leucine Biosynthesis Is Involved in Regulating High Lipid Accumulation in Yarrowia lipolytica

Author

Kerkhoven, Eduard J., Kim, Young-Mo, Wei, Siwei, Nicora, Carrie D., Fillmore, Thomas L., Purvine, Samuel O., Webb-Robertson, Bobbie-Jo, Smith, Richard D., Baker, Scott E., Metz, Thomas O., and Nielsen, Jens

Abstract

ABSTRACTThe yeast Yarrowia lipolyticais a potent accumulator of lipids, and lipogenesis in this organism can be influenced by a variety of factors, such as genetics and environmental conditions. Using a multifactorial study, we elucidated the effects of both genetic and environmental factors on regulation of lipogenesis in Y. lipolyticaand identified how two opposite regulatory states both result in lipid accumulation. This study involved comparison of a strain overexpressing diacylglycerol acyltransferase (DGA1) with a control strain grown under either nitrogen or carbon limitation conditions. A strong correlation was observed between the responses on the transcript and protein levels. Combination of DGA1overexpression with nitrogen limitation resulted in a high level of lipid accumulation accompanied by downregulation of several amino acid biosynthetic pathways, including that of leucine in particular, and these changes were further correlated with a decrease in metabolic fluxes. This downregulation was supported by the measured decrease in the level of 2-isopropylmalate, an intermediate of leucine biosynthesis. Combining the multi-omics data with putative transcription factor binding motifs uncovered a contradictory role for TORC1 in controlling lipid accumulation, likely mediated through 2-isopropylmalate and a Leu3-like transcription factor.IMPORTANCEThe ubiquitous metabolism of lipids involves refined regulation, and an enriched understanding of this regulation would have wide implications. Various factors can influence lipid metabolism, including the environment and genetics. We demonstrated, using a multi-omics and multifactorial experimental setup, that multiple factors affect lipid accumulation in the yeast Yarrowia lipolytica. Using integrative analysis, we identified novel interactions between nutrient restriction and genetic factors involving regulators that are highly conserved among eukaryotes. Given that lipid metabolism is involved in many diseases but is also vital to the development of microbial cell factories that can provide us with sustainable fuels and oleochemicals, we envision that our report introduces foundational work to further unravel the regulation of lipid accumulation in eukaryal cells.

Published
2017
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28. Genetic and Genomic Dissection of the Cochliobolus heterostrophus Tox1 Locus Controlling Biosynthesis of the Polyketide Virulence Factor T-toxin.

Author

Turgeon, B. Gillian and Baker, Scott E.

Abstract

Fungal pathogenesis to plants is an intricate developmental process requiring biological components found in most fungi, as well as factors that are unique to fungal taxa that participate in particular fungus-plant interactions. The host?selective polyketide toxin known as T?toxin produced by Cochliobolus heterostrophus race T, a highly virulent pathogen of maize, is an intriguing example of the latter type of virulence determinant. The Tox1 locus, which controls biosynthesis of T?toxin, originally defined as a single genetic locus, it is, in fact, two exceedingly complex loci on two chromosomes that are reciprocally translocated with respect to their counterparts in weakly pathogenic race O. Race O lacks the Tox1 locus and does not produce T?toxin. Highly virulent race T was first recognized when it caused an epidemic of Southern Corn Leaf Blight, which devastated the US corn crop in 1970. The evolutionary origin of the Tox1 locus remains unknown. [ABSTRACT FROM AUTHOR]

Published
2007
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29. Comparative genome sequence analysis underscores mycoparasitism as the ancestral life style of Trichoderma

Author

Kubicek, Christian P, Herrera-Estrella, Alfredo, Seidl-Seiboth, Verena, Martinez, Diego A, Druzhinina, Irina S, Thon, Michael, Zeilinger, Susanne, Casas-Flores, Sergio, Horwitz, Benjamin A, Mukherjee, Prasun K, Mukherjee, Mala, Kredics, László, Alcaraz, Luis D, Aerts, Andrea, Antal, Zsuzsanna, Atanasova, Lea, Cervantes-Badillo, Mayte G, Challacombe, Jean, Chertkov, Olga, McCluskey, Kevin, Coulpier, Fanny, Deshpande, Nandan, von Döhren, Hans, Ebbole, Daniel J, Esquivel-Naranjo, Edgardo U, Fekete, Erzsébet, Flipphi, Michel, Glaser, Fabian, Gómez-Rodríguez, Elida Y, Gruber, Sabine, Han, Cliff, Henrissat, Bernard, Hermosa, Rosa, Hernández-Oñate, Miguel, Karaffa, Levente, Kosti, Idit, Le Crom, Stéphane, Lindquist, Erika, Lucas, Susan, Lübeck, Mette, Lübeck, Peter S, Margeot, Antoine, Metz, Benjamin, Misra, Monica, Nevalainen, Helena, Omann, Markus, Packer, Nicolle, Perrone, Giancarlo, Uresti-Rivera, Edith E, Salamov, Asaf, Schmoll, Monika, Seiboth, Bernhard, Shapiro, Harris, Sukno, Serenella, Tamayo-Ramos, Juan Antonio, Tisch, Doris, Wiest, Aric, Wilkinson, Heather H, Zhang, Michael, Coutinho, Pedro M, Kenerley, Charles M, Monte, Enrique, Baker, Scott E, and Grigoriev, Igor V

Abstract

Background: Mycoparasitism, a lifestyle where one fungus is parasitic on another fungus, has special relevance when the prey is a plant pathogen, providing a strategy for biological control of pests for plant protection. Probably, the most studied biocontrol agents are species of the genus Hypocrea/Trichoderma. Results: Here we report an analysis of the genome sequences of the two biocontrol species Trichoderma atroviride(teleomorph Hypocrea atroviridis) and Trichoderma virens(formerly Gliocladium virens, teleomorph Hypocrea virens), and a comparison with Trichoderma reesei(teleomorph Hypocrea jecorina). These three Trichodermaspecies display a remarkable conservation of gene order (78 to 96%), and a lack of active mobile elements probably due to repeat-induced point mutation. Several gene families are expanded in the two mycoparasitic species relative to T. reeseior other ascomycetes, and are overrepresented in non-syntenic genome regions. A phylogenetic analysis shows that T. reeseiand T. virensare derived relative to T. atroviride. The mycoparasitism-specific genes thus arose in a common Trichodermaancestor but were subsequently lost in T. reesei. Conclusions: The data offer a better understanding of mycoparasitism, and thus enforce the development of improved biocontrol strains for efficient and environmentally friendly protection of plants.

Published
2011
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