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3. Author Correction: Building a global alliance of biofoundries.

Author

Hillson, Nathan, Caddick, Mark, Cai, Yizhi, Carrasco, Jose A, Chang, Matthew Wook, Curach, Natalie C, Bell, David J, Feuvre, Rosalind Le, Friedman, Douglas C, Fu, Xiongfei, Gold, Nicholas D, Herrgård, Markus J, Holowko, Maciej B, Johnson, James R, Johnson, Richard A, Keasling, Jay D, Kitney, Richard I, Kondo, Akihiko, Liu, Chenli, Martin, Vincent JJ, Menolascina, Filippo, Ogino, Chiaki, Patron, Nicola J, Pavan, Marilene, Poh, Chueh Loo, Pretorius, Isak S, Rosser, Susan J, Scrutton, Nigel S, Storch, Marko, Tekotte, Hille, Travnik, Evelyn, Vickers, Claudia E, Yew, Wen Shan, Yuan, Yingjin, Zhao, Huimin, and Freemont, Paul S

Subjects
MD Multidisciplinary
Abstract

The original version of this Comment contained errors in the legend of Figure 2, in which the locations of the fifteenth and sixteenth GBA members were incorrectly given as '(15) Australian Genome Foundry, Macquarie University; (16) Australian Foundry for Advanced Biomanufacturing, University of Queensland.'. The correct version replaces this with '(15) Australian Foundry for Advanced Biomanufacturing (AusFAB), University of Queensland and (16) Australian Genome Foundry, Macquarie University'. This has been corrected in both the PDF and HTML versions of the Comment.

Published
2019

4. Building a global alliance of biofoundries.

Author

Hillson, Nathan, Caddick, Mark, Cai, Yizhi, Carrasco, Jose A, Chang, Matthew Wook, Curach, Natalie C, Bell, David J, Le Feuvre, Rosalind, Friedman, Douglas C, Fu, Xiongfei, Gold, Nicholas D, Herrgård, Markus J, Holowko, Maciej B, Johnson, James R, Johnson, Richard A, Keasling, Jay D, Kitney, Richard I, Kondo, Akihiko, Liu, Chenli, Martin, Vincent JJ, Menolascina, Filippo, Ogino, Chiaki, Patron, Nicola J, Pavan, Marilene, Poh, Chueh Loo, Pretorius, Isak S, Rosser, Susan J, Scrutton, Nigel S, Storch, Marko, Tekotte, Hille, Travnik, Evelyn, Vickers, Claudia E, Yew, Wen Shan, Yuan, Yingjin, Zhao, Huimin, and Freemont, Paul S

Subjects
Organisms, Genetically Modified, Genetic Engineering, Biotechnology, Biomedical Research, International Cooperation, Organisms, Genetically Modified, MD Multidisciplinary
Abstract

Biofoundries provide an integrated infrastructure to enable the rapid design, construction, and testing of genetically reprogrammed organisms for biotechnology applications and research. Many biofoundries are being built and a Global Biofoundry Alliance has recently been established to coordinate activities worldwide.

Published
2019

5. Genetics of longitudinal kidney function in children and adults with systemic lupus erythematosus.

Author

Tang, Thai-Son, Liao, Fangming, Webber, Declan, Gold, Nicholas, Cao, Jingjing, Dominguez, Daniela, Gladman, Dafna, Knight, Andrea, Levy, Deborah M, Ng, Lawrence, Paterson, Andrew D, Touma, Zahi, Urowitz, Murray B, Wither, Joan, Silverman, Earl D, Pullenayegum, Eleanor M, and Hiraki, Linda T

Subjects
KIDNEY physiology, GLOMERULAR filtration rate, GENETICS, GENOME-wide association studies, RESEARCH funding, DESCRIPTIVE statistics, SYSTEMIC lupus erythematosus, CHILDREN, ADULTS
Abstract

Objectives Genome-wide association studies (GWAS) have identified loci associated with estimated glomerular filtration rate (eGFR). Few LN risk loci have been identified to date. We tested the association of SLE and eGFR polygenic risk scores (PRS) with repeated eGFR measures from children and adults with SLE. Methods Patients from two tertiary care lupus clinics that met ≥4 ACR and/or SLICC criteria for SLE were genotyped on the Illumina MEGA or Omni1-Quad arrays. PRSs were calculated for SLE and eGFR, using published weighted GWA-significant alleles. eGFR was calculated using the CKD-EPI and Schwartz equations. We tested the effect of eGFR- and SLE-PRSs on eGFR mean and variance, adjusting for age at diagnosis, sex, ancestry, follow-up time, and clinical event flags. Results We included 1158 SLE patients (37% biopsy-confirmed LN) with 36 733 eGFR measures over a median of 7.6 years (IQR: 3.9–15.3). LN was associated with lower within-person mean eGFR [LN: 93.8 (s. d. 26.4) vs non-LN: 101.6 (s. d. 17.7) mL/min per 1.73 m2 ; P  < 0.0001] and higher variance [LN median: 157.0 (IQR: 89.5, 268.9) vs non-LN median: 84.9 (IQR: 46.9, 138.2) (mL/min per 1.73 m2)2; P  < 0.0001]. Increasing SLE-PRSs were associated with lower mean eGFR and greater variance, while increasing eGFR-PRS was associated with increased eGFR mean and variance. Conclusion We observed significant associations between SLE and eGFR PRSs and repeated eGFR measurements, in a large cohort of children and adults with SLE. Longitudinal eGFR may serve as a powerful alternative outcome to LN categories for discovery of LN risk loci. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Global view of the Clostridium thermocellum cellulosome revealed by quantitative proteomic analysis

Author

Gold, Nicholas D. and Martin, Vincent J.J.

Subjects
Cellulose -- Properties, Proteomics -- Methods, Clostridium -- Properties, Biological sciences
Abstract

A metabolic isotope-labeling strategy was used in conjunction with nano-liquid chromatography-electrospray ionization mass spectrometry peptide sequencing to assess quantitative alterations in the expression patterns of subunits within cellulosomes of the cellulolytic bacterium Clostridium thermocellum, grown on either cellulose or cellobiose. In total, 41 cellulosomal proteins were detected, including 36 type I dockerin-containing proteins, which count among them all but three of the known docking components and 16 new subunits. All differential expression data were normalized to the scaffoldin CipA such that protein per cellulosome was compared for growth between the two substrates. Proteins that exhibited higher expression in cellulosomes from cellulose-grown cells than in cellobiose-grown cells were the cell surface anchor protein OlpB, exoglucanases CelS and CelK, and the glycoside hydrolase family 9 (GH9) endoglucanase CelJ. Conversely, lower expression in cellulosomes from cells grown on cellulose than on cellobiose was observed for the GH8 endoglucanase CelA; GH5 endoglucanases CelB, CelE, CelG; and hemicellulases XynA, XynC, XynZ, and XghA. GH9 cellulases were the most abundant group of enzymes per CipA when cells were grown on cellulose, while hemicellulases were the most abundant group on cellobiose. The results support the existing theory that expression of scaffoldin-related proteins is coordinately regulated by a catabolite repression type of mechanism, as well as the prior observation that xylanase expression is subject to a growth rate-independent type of regulation. However, concerning transcriptional control of cellulases, which had also been previously shown to be subject to catabolite repression, a novel distinction was observed with respect to endoglucanases.

Published
2007

14. Medical Education

Author

Greenhalgh, Trisha, Barley, S. L., and Gold, Nicholas

Published
1984

15. Pyrenoid functions revealed by proteomics in Chlamydomonas reinhardtii.

Author

Zhan, Yu, Marchand, Christophe H., Maes, Alexandre, Mauries, Adeline, Sun, Yi, Dhaliwal, James S., Uniacke, James, Arragain, Simon, Jiang, Heng, Gold, Nicholas D., Martin, Vincent J. J., Lemaire, Stéphane D., and Zerges, William

Subjects
CHLAMYDOMONAS reinhardtii, CHLOROPLASTS, PROTEOMICS, ALGAE, PLANT productivity
Abstract

Organelles are intracellular compartments which are themselves compartmentalized. Biogenic and metabolic processes are localized to specialized domains or microcompartments to enhance their efficiency and suppress deleterious side reactions. An example of intra-organellar compartmentalization is the pyrenoid in the chloroplasts of algae and hornworts. This microcompartment enhances the photosynthetic CO2-fixing activity of the Calvin-Benson cycle enzyme Rubisco, suppresses an energetically wasteful oxygenase activity of Rubisco, and mitigates limiting CO2 availability in aquatic environments. Hence, the pyrenoid is functionally analogous to the carboxysomes in cyanobacteria. However, a comprehensive analysis of pyrenoid functions based on its protein composition is lacking. Here we report a proteomic characterization of the pyrenoid in the green alga Chlamydomonas reinhardtii. Pyrenoid-enriched fractions were analyzed by quantitative mass spectrometry. Contaminant proteins were identified by parallel analyses of pyrenoid-deficient mutants. This pyrenoid proteome contains 190 proteins, many of which function in processes that are known or proposed to occur in pyrenoids: e.g. the carbon concentrating mechanism, starch metabolism or RNA metabolism and translation. Using radioisotope pulse labeling experiments, we show that pyrenoid-associated ribosomes could be engaged in the localized synthesis of the large subunit of Rubisco. New pyrenoid functions are supported by proteins in tetrapyrrole and chlorophyll synthesis, carotenoid metabolism or amino acid metabolism. Hence, our results support the long-standing hypothesis that the pyrenoid is a hub for metabolism. The 81 proteins of unknown function reveal candidates for new participants in these processes. Our results provide biochemical evidence of pyrenoid functions and a resource for future research on pyrenoids and their use to enhance agricultural plant productivity. Data are available via ProteomeXchange with identifier PXD004509. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Metabolic engineering of a tyrosine-overproducing yeast platform using targeted metabolomics.

Author

Gold, Nicholas D., Gowen, Christopher M., Lussier, Francois-Xavier, Cautha, Sarat C., Mahadevan, Radhakrishnan, and Martin, Vincent J. J.

Subjects
*GENETIC engineering, *METABOLOMICS, *TYROSINE, *ALKALOIDS, *SACCHAROMYCES cerevisiae, *AMINO acid synthesis
Abstract

Background: L-tyrosine is a common precursor for a wide range of valuable secondary metabolites, including benzylisoquinoline alkaloids (BIAs) and many polyketides. An industrially tractable yeast strain optimized for production of L-tyrosine could serve as a platform for the development of BIA and polyketide cell factories. This study applied a targeted metabolomics approach to evaluate metabolic engineering strategies to increase the availability of intracellular L-tyrosine in the yeast Saccharomyces cerevisiae CEN.PK. Our engineering strategies combined localized pathway engineering with global engineering of central metabolism, facilitated by genome-scale steady-state modelling. Results: Addition of a tyrosine feedback resistant version of 3-deoxy-D-arabino-heptulosonate-7-phosphate synthase Aro4 from S. cerevisiae was combined with overexpression of either a tyrosine feedback resistant yeast chorismate mutase Aro7, the native pentafunctional arom protein Aro1, native prephenate dehydrogenase Tyr1 or cyclohexadienyl dehydrogenase TyrC from Zymomonas mobilis. Loss of aromatic carbon was limited by eliminating phenylpyruvate decarboxylase Aro10. The TAL gene from Rhodobacter sphaeroides was used to produce coumarate as a simple test case of a heterologous by-product of tyrosine. Additionally, multiple strategies for engineering global metabolism to promote tyrosine production were evaluated using metabolic modelling. The T21E mutant of pyruvate kinase Cdc19 was hypothesized to slow the conversion of phosphoenolpyruvate to pyruvate and accumulate the former as precursor to the shikimate pathway. The ZWF1 gene coding for glucose-6-phosphate dehydrogenase was deleted to create an NADPH deficiency designed to force the cell to couple its growth to tyrosine production via overexpressed NADP+-dependent prephenate dehydrogenase Tyr1. Our engineered Zwf1- strain expressing TYRC ARO4FBR and grown in the presence of methionine achieved an intracellular L-tyrosine accumulation up to 520 μmol/g DCW or 192 mM in the cytosol, but sustained flux through this pathway was found to depend on the complete elimination of feedback inhibition and degradation pathways. Conclusions: Our targeted metabolomics approach confirmed a likely regulatory site at DAHP synthase and identified another possible cofactor limitation at prephenate dehydrogenase. Additionally, the genome-scale metabolic model identified design strategies that have the potential to improve availability of erythrose 4-phosphate for DAHP synthase and cofactor availability for prephenate dehydrogenase. We evaluated these strategies and provide recommendations for further improvement of aromatic amino acid biosynthesis in S. cerevisiae. [ABSTRACT FROM AUTHOR]

Published
2015
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17. Phylogenetic stratigraphy in the Guerrero Negro hypersaline microbial mat.

Author

Kirk Harris, J, Gregory Caporaso, J, Walker, Jeffrey J, Spear, John R, Gold, Nicholas J, Robertson, Charles E, Hugenholtz, Philip, Goodrich, Julia, McDonald, Daniel, Knights, Dan, Marshall, Paul, Tufo, Henry, Knight, Rob, and Pace, Norman R

Subjects
MOLECULAR phylogeny, MICROBIAL mats, SULFATE-reducing bacteria, BACTERIAL genetics, SMALL interfering RNA, BACTERIAL diversity
Abstract

The microbial mats of Guerrero Negro (GN), Baja California Sur, Mexico historically were considered a simple environment, dominated by cyanobacteria and sulfate-reducing bacteria. Culture-independent rRNA community profiling instead revealed these microbial mats as among the most phylogenetically diverse environments known. A preliminary molecular survey of the GN mat based on only ∼1500 small subunit rRNA gene sequences discovered several new phylum-level groups in the bacterial phylogenetic domain and many previously undetected lower-level taxa. We determined an additional ∼119 000 nearly full-length sequences and 28 000 >200 nucleotide 454 reads from a 10-layer depth profile of the GN mat. With this unprecedented coverage of long sequences from one environment, we confirm the mat is phylogenetically stratified, presumably corresponding to light and geochemical gradients throughout the depth of the mat. Previous shotgun metagenomic data from the same depth profile show the same stratified pattern and suggest that metagenome properties may be predictable from rRNA gene sequences. We verify previously identified novel lineages and identify new phylogenetic diversity at lower taxonomic levels, for example, thousands of operational taxonomic units at the family-genus levels differ considerably from known sequences. The new sequences populate parts of the bacterial phylogenetic tree that previously were poorly described, but indicate that any comprehensive survey of GN diversity has only begun. Finally, we show that taxonomic conclusions are generally congruent between Sanger and 454 sequencing technologies, with the taxonomic resolution achieved dependent on the abundance of reference sequences in the relevant region of the rRNA tree of life. [ABSTRACT FROM AUTHOR]

Published
2013
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18. CORRESPONDENCE.

Author

Bain, J., Drennan, P.C., Miller, M.G., Redding, Penelope J., McGovern, Theresa, Ledingham, I. McA, Walshe, J.M., Robbins, G., Britt, R.P., Greenhalgh, Trisha, Gold, Nicholas, Barley, S.L., Reddi, Kurri, Grant, Robert, Weller, Malcolm P.I., Clark, C.R., David, J., and Hall, R.

Subjects
HALLUCINATIONS, CELLULITIS, NEUROLEPTIC malignant syndrome
Abstract

Presents several letters concerning medicine. Occurrence of visual hallucinations in children receiving decongestants; Manifestation of myocardial depression in streptococcal cellulitis; Details on the neuroleptic malignant syndrome.

Published
1984

19. Error-correcting barcoded primers for pyrosequencing hundreds of samples in multiplex.

Author

Hamady, Micah, Walker, Jeffrey J., Harris, J. Kirk, Gold, Nicholas J., and Knight, Rob

Subjects
DNA, RNA, BACTERIAL genetics, MICROBIAL genetics, BACTERIOLOGY
Abstract

We constructed error-correcting DNA barcodes that allow one run of a massively parallel pyrosequencer to process up to 1,544 samples simultaneously. Using these barcodes we processed bacterial 16S rRNA gene sequences representing microbial communities in 286 environmental samples, corrected 92% of sample assignment errors, and thus characterized nearly as many 16S rRNA genes as have been sequenced to date by Sanger sequencing. [ABSTRACT FROM AUTHOR]

Published
2008
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20. Happy hunting grounds.

Author

Gold, Nicholas

Subjects
*BOOKSTORES, *BOOKS & reading, *MEDICINE
Abstract

Comments on the conditions of bookstores offering a choice of readings related to medicine in England. Rarity of old bookshops; Comparison of attitudes toward customers between the aged and young sales clerks; Suggestions for choosing a well-read book.

Published
1980
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21. A Combinatorial Approach To Study Cytochrome P450 Enzymes for De Novo Production of Steviol Glucosides in Baker's Yeast.

Author

Gold ND, Fossati E, Hansen CC, DiFalco M, Douchin V, and Martin VJJ

Subjects
Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Cloning, Molecular, Cytochrome P-450 Enzyme System genetics, Diterpenes, Kaurane chemistry, Diterpenes, Kaurane metabolism, Plant Proteins genetics, Plasmids genetics, Plasmids metabolism, Stevia enzymology, Substrate Specificity, Cytochrome P-450 Enzyme System metabolism, Diterpenes, Kaurane biosynthesis, Glucosides biosynthesis, Plant Proteins metabolism, Saccharomyces cerevisiae metabolism
Abstract

Biosynthesis of steviol glycosides in planta proceeds via two cytochrome P450 enzymes (CYPs): kaurene oxidase (KO) and kaurenoic acid hydroxylase (KAH). KO and KAH function in succession with the support of a NADPH-dependent cytochrome P450 reductase (CPR) to convert kaurene to steviol. This work describes a platform for recombinant production of steviol glucosides (SGs) in Saccharomyces cerevisiae, demonstrating the full reconstituted pathway from the simple sugar glucose to the SG precursor steviol. With a focus on optimization of the KO-KAH activities, combinations of functional homologues were tested in batch growth. Among the CYPs, novel KO75 (CYP701) and novel KAH82 (CYP72) outperformed their respective functional homologues from Stevia rebaudiana, SrKO (CYP701A5) and SrKAH (CYP81), in assays where substrate was supplemented to culture broth. With kaurene produced from glucose in the cell, SrCPR1 from S. rebaudiana supported highest turnover for KO-KAH combinations, besting two other CPRs isolated from S. rebaudiana, the Arabidopsis thaliana ATR2, and a new class I CPR12. Some coexpressions of ATR2 with a second CPR were found to diminish KAH activity, showing that coexpression of CPRs can lead to competition for CYPs with possibly adverse effects on catalysis.

Published
2018
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22. Engineering of a Nepetalactol-Producing Platform Strain of Saccharomyces cerevisiae for the Production of Plant Seco-Iridoids.

Author

Campbell A, Bauchart P, Gold ND, Zhu Y, De Luca V, and Martin VJ

Subjects
Acyclic Monoterpenes, Monoterpenes metabolism, Terpenes metabolism, Vinca Alkaloids metabolism, Bridged Bicyclo Compounds, Heterocyclic metabolism, Catharanthus metabolism, Indole Alkaloids metabolism, Iridoids metabolism, Saccharomyces cerevisiae metabolism
Abstract

The monoterpene indole alkaloids (MIAs) are a valuable family of chemicals that include the anticancer drugs vinblastine and vincristine. These compounds are of global significance-appearing on the World Health Organization's list of model essential medicines-but remain exorbitantly priced due to low in planta levels. Chemical synthesis and genetic manipulation of MIA producing plants such as Catharanthus roseus have so far failed to find a solution to this problem. Synthetic biology holds a potential answer, by building the pathway into more tractable organisms such as Saccharomyces cerevisiae. Recent work has taken the first steps in this direction by producing small amounts of the intermediate strictosidine in yeast. In order to help improve on these titers, we aimed to optimize the early biosynthetic steps of the MIA pathway to the metabolite nepetalactol. We combined a number of strategies to create a base strain producing 11.4 mg/L of the precursor geraniol. We also show production of the critical intermediate 10-hydroxygeraniol and demonstrate nepetalactol production in vitro. Lastly we demonstrate that activity of the iridoid synthase toward the intermediates geraniol and 10-hydroxygeraniol results in the synthesis of the nonproductive intermediates citronellol and 10-hydroxycitronellol. This discovery has serious implications for the reconstruction of the MIA in heterologous organisms.

Published
2016
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23. Chemical and Synthetic Genetic Array Analysis Identifies Genes that Suppress Xylose Utilization and Fermentation in Saccharomyces cerevisiae.

Author

Usher J, Balderas-Hernandez V, Quon P, Gold ND, Martin VJ, Mahadevan R, and Baetz K

Abstract

Though highly efficient at fermenting hexose sugars, Saccharomyces cerevisiae has limited ability to ferment five-carbon sugars. As a significant portion of sugars found in cellulosic biomass is the five-carbon sugar xylose, S. cerevisiae must be engineered to metabolize pentose sugars, commonly by the addition of exogenous genes from xylose fermenting fungi. However, these recombinant strains grow poorly on xylose and require further improvement through rational engineering or evolutionary adaptation. To identify unknown genes that contribute to improved xylose fermentation in these recombinant S. cerevisiae, we performed genome-wide synthetic interaction screens to identify deletion mutants that impact xylose utilization of strains expressing the xylose isomerase gene XYLA from Piromyces sp. E2 alone or with an additional copy of the endogenous xylulokinase gene XKS1. We also screened the deletion mutant array to identify mutants whose growth is affected by xylose. Our genetic network reveals that more than 80 nonessential genes from a diverse range of cellular processes impact xylose utilization. Surprisingly, we identified four genes, ALP1, ISC1, RPL20B, and BUD21, that when individually deleted improved xylose utilization of both S. cerevisiae S288C and CEN.PK strains. We further characterized BUD21 deletion mutant cells in batch fermentations and found that they produce ethanol even the absence of exogenous XYLA. We have demonstrated that the ability of laboratory strains of S. cerevisiae to utilize xylose as a sole carbon source is suppressed, which implies that S. cerevisiae may not require the addition of exogenous genes for efficient xylose fermentation.

Published
2011
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