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  1. Article ; Online: High throughput

    Fina, Albert / Millard, Pierre / Albiol, Joan / Ferrer, Pau / Heux, Stephanie

    Microbial cell factories

    2023  Volume 22, Issue 1, Page(s) 117

    Abstract: Background: Production of 3-hydroxypropionic acid (3-HP) through the malonyl-CoA pathway has yielded promising results in Pichia pastoris (Komagataella phaffii), demonstrating the potential of this cell factory to produce this platform chemical and ... ...

    Abstract Background: Production of 3-hydroxypropionic acid (3-HP) through the malonyl-CoA pathway has yielded promising results in Pichia pastoris (Komagataella phaffii), demonstrating the potential of this cell factory to produce this platform chemical and other acetyl-CoA-derived products using glycerol as a carbon source. However, further metabolic engineering of the original P. pastoris 3-HP-producing strains resulted in unexpected outcomes, e.g., significantly lower product yield and/or growth rate. To gain an understanding on the metabolic constraints underlying these observations, the fluxome (metabolic flux phenotype) of ten 3-HP-producing P. pastoris strains has been characterized using a high throughput
    Results: We generated detailed maps of the carbon fluxes in the central carbon metabolism of the 3-HP producing strain series, revealing the metabolic consequences of different metabolic engineering strategies aimed at improving NADPH regeneration, enhancing conversion of pyruvate into cytosolic acetyl-CoA, or eliminating by-product (arabitol) formation. Results indicate that the expression of the POS5 NADH kinase leads to a reduction in the fluxes of the pentose phosphate pathway reactions, whereas an increase in the pentose phosphate pathway fluxes was observed when the cytosolic acetyl-CoA synthesis pathway was overexpressed. Results also show that the tight control of the glycolytic flux hampers cell growth due to limited acetyl-CoA biosynthesis. When the cytosolic acetyl-CoA synthesis pathway was overexpressed, the cell growth increased, but the product yield decreased due to higher growth-associated ATP costs. Finally, the six most relevant strains were also cultured at pH 3.5 to assess the effect of a lower pH on their fluxome. Notably, similar metabolic fluxes were observed at pH 3.5 compared to the reference condition at pH 5.
    Conclusions: This study shows that existing fluoxomics workflows for high-throughput analyses of metabolic phenotypes can be adapted to investigate P. pastoris, providing valuable information on the impact of genetic manipulations on the metabolic phenotype of this yeast. Specifically, our results highlight the metabolic robustness of P. pastoris's central carbon metabolism when genetic modifications are made to increase the availability of NADPH and cytosolic acetyl-CoA. Such knowledge can guide further metabolic engineering of these strains. Moreover, insights into the metabolic adaptation of P. pastoris to an acidic pH have also been obtained, showing the capability of the fluoxomics workflow to assess the metabolic impact of environmental changes.
    MeSH term(s) Metabolic Flux Analysis ; Acetyl Coenzyme A ; Carbon ; Adenosine Triphosphate
    Chemical Substances hydracrylic acid (C4ZF6XLD2X) ; Acetyl Coenzyme A (72-89-9) ; Carbon (7440-44-0) ; Adenosine Triphosphate (8L70Q75FXE)
    Language English
    Publishing date 2023-06-29
    Publishing country England
    Document type Journal Article
    ZDB-ID 2091377-1
    ISSN 1475-2859 ; 1475-2859
    ISSN (online) 1475-2859
    ISSN 1475-2859
    DOI 10.1186/s12934-023-02123-0
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  2. Article ; Online: Acetate is a beneficial nutrient for E. coli at low glycolytic flux.

    Millard, Pierre / Gosselin-Monplaisir, Thomas / Uttenweiler-Joseph, Sandrine / Enjalbert, Brice

    The EMBO journal

    2023  Volume 42, Issue 15, Page(s) e113079

    Abstract: Acetate, a major by-product of glycolytic metabolism in Escherichia coli and many other microorganisms, has long been considered a toxic waste compound that inhibits microbial growth. This counterproductive auto-inhibition represents a major problem in ... ...

    Abstract Acetate, a major by-product of glycolytic metabolism in Escherichia coli and many other microorganisms, has long been considered a toxic waste compound that inhibits microbial growth. This counterproductive auto-inhibition represents a major problem in biotechnology and has puzzled the scientific community for decades. Recent studies have however revealed that acetate is also a co-substrate of glycolytic nutrients and a global regulator of E. coli metabolism and physiology. Here, we used a systems biology strategy to investigate the mutual regulation of glycolytic and acetate metabolism in E. coli. Computational and experimental analyses demonstrate that decreasing the glycolytic flux enhances co-utilization of acetate with glucose. Acetate metabolism thus compensates for the reduction in glycolytic flux and eventually buffers carbon uptake so that acetate, rather than being toxic, actually enhances E. coli growth under these conditions. We validated this mechanism using three orthogonal strategies: chemical inhibition of glucose uptake, glycolytic mutant strains, and alternative substrates with a natively low glycolytic flux. In summary, acetate makes E. coli more robust to glycolytic perturbations and is a valuable nutrient, with a beneficial effect on microbial growth.
    MeSH term(s) Escherichia coli/metabolism ; Glycolysis ; Acetates/metabolism ; Carbon/metabolism ; Biotechnology ; Glucose/metabolism
    Chemical Substances Acetates ; Carbon (7440-44-0) ; Glucose (IY9XDZ35W2)
    Language English
    Publishing date 2023-06-12
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 586044-1
    ISSN 1460-2075 ; 0261-4189
    ISSN (online) 1460-2075
    ISSN 0261-4189
    DOI 10.15252/embj.2022113079
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  3. Article: Missed opportunities for circumcising boys.

    Millard, P / Goldstuck, N

    South African medical journal = Suid-Afrikaanse tydskrif vir geneeskunde

    2016  Volume 107, Issue 1, Page(s) 11779

    Language English
    Publishing date 2016-12-21
    Publishing country South Africa
    Document type Journal Article
    ZDB-ID 390968-2
    ISSN 2078-5135 ; 0256-9574 ; 0038-2469
    ISSN (online) 2078-5135
    ISSN 0256-9574 ; 0038-2469
    DOI 10.7196/SAMJ.2016.v107.i1.12177
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    Zs.MO 645: Show issues

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  4. Article: Success brings new challenges in circumcision campaign.

    Millard, P S / Goldstuck, N

    South African medical journal = Suid-Afrikaanse tydskrif vir geneeskunde

    2019  Volume 109, Issue 2, Page(s) 12543

    MeSH term(s) Adult ; Circumcision, Male/instrumentation ; Circumcision, Male/methods ; HIV Infections/prevention & control ; Humans ; Male ; South Africa
    Language English
    Publishing date 2019-01-31
    Publishing country South Africa
    Document type Editorial
    ZDB-ID 390968-2
    ISSN 2078-5135 ; 0256-9574 ; 0038-2469
    ISSN (online) 2078-5135
    ISSN 0256-9574 ; 0038-2469
    DOI 10.7196/SAMJ.2019.v109i2.13821
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  5. Article ; Online: Improved NMR Detection of Phospho-Metabolites in a Complex Mixture.

    Cox, Neil / Millard, Pierre / Charlier, Cyril / Lippens, Guy

    Analytical chemistry

    2021  Volume 93, Issue 11, Page(s) 4818–4824

    Abstract: Phosphorylated metabolites are omnipresent in cells, but their analytical characterization faces several technical hurdles. Here, we detail an improved NMR workflow aimed at assigning the high-resolution subspectrum of the phospho-metabolites in a ... ...

    Abstract Phosphorylated metabolites are omnipresent in cells, but their analytical characterization faces several technical hurdles. Here, we detail an improved NMR workflow aimed at assigning the high-resolution subspectrum of the phospho-metabolites in a complex mixture. Combining a pure absorption
    MeSH term(s) Complex Mixtures ; Magnetic Resonance Imaging ; Magnetic Resonance Spectroscopy ; Workflow
    Chemical Substances Complex Mixtures
    Language English
    Publishing date 2021-03-12
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1508-8
    ISSN 1520-6882 ; 0003-2700
    ISSN (online) 1520-6882
    ISSN 0003-2700
    DOI 10.1021/acs.analchem.0c04056
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  6. Article ; Online: Functional Analysis of Deoxyhexose Sugar Utilization in Escherichia coli Reveals Fermentative Metabolism under Aerobic Conditions.

    Millard, Pierre / Pérochon, Julien / Létisse, Fabien

    Applied and environmental microbiology

    2021  Volume 87, Issue 16, Page(s) e0071921

    Abstract: l-Rhamnose and l-fucose are the two main 6-deoxyhexoses Escherichia coli can use as carbon and energy sources. Deoxyhexose metabolism leads to the formation of lactaldehyde, whose fate depends on oxygen availability. Under anaerobic conditions, ... ...

    Abstract l-Rhamnose and l-fucose are the two main 6-deoxyhexoses Escherichia coli can use as carbon and energy sources. Deoxyhexose metabolism leads to the formation of lactaldehyde, whose fate depends on oxygen availability. Under anaerobic conditions, lactaldehyde is reduced to 1,2-propanediol, whereas under aerobic conditions, it should be oxidized into lactate and then channeled into the central metabolism. However, although this all-or-nothing view is accepted in the literature, it seems overly simplistic since propanediol is also reported to be present in the culture medium during aerobic growth on l-fucose. To clarify the functioning of 6-deoxyhexose sugar metabolism, a quantitative metabolic analysis was performed to determine extra- and intracellular fluxes in E. coli K-12 MG1655 (a laboratory strain) and in E. coli Nissle 1917 (a human commensal strain) during anaerobic and aerobic growth on l-rhamnose and l-fucose. As expected, lactaldehyde is fully reduced to 1,2-propanediol under anoxic conditions, allowing complete reoxidation of the NADH produced by glyceraldehyde-3-phosphate-dehydrogenase. We also found that net ATP synthesis is ensured by acetate production. More surprisingly, lactaldehyde is also primarily reduced into 1,2-propanediol under aerobic conditions. For growth on l-fucose,
    MeSH term(s) Adenosine Triphosphate/metabolism ; Aerobiosis ; Escherichia coli/enzymology ; Escherichia coli/genetics ; Escherichia coli/metabolism ; Escherichia coli Proteins/genetics ; Escherichia coli Proteins/metabolism ; Fermentation ; Fucose/metabolism ; Glyceraldehyde-3-Phosphate Dehydrogenases/genetics ; Glyceraldehyde-3-Phosphate Dehydrogenases/metabolism ; Hexoses/metabolism ; NADP/metabolism ; Rhamnose/metabolism
    Chemical Substances Escherichia coli Proteins ; Hexoses ; Fucose (28RYY2IV3F) ; NADP (53-59-8) ; Adenosine Triphosphate (8L70Q75FXE) ; Glyceraldehyde-3-Phosphate Dehydrogenases (EC 1.2.1.-) ; Rhamnose (QN34XC755A)
    Language English
    Publishing date 2021-07-27
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 223011-2
    ISSN 1098-5336 ; 0099-2240
    ISSN (online) 1098-5336
    ISSN 0099-2240
    DOI 10.1128/AEM.00719-21
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    Zs.B 201: Show issues Location:
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  7. Article ; Online: Metabolic impact of heterologous protein production in Pseudomonas putida: Insights into carbon and energy flux control.

    Vogeleer, Philippe / Millard, Pierre / Arbulú, Ana-Sofia Ortega / Pflüger-Grau, Katharina / Kremling, Andreas / Létisse, Fabien

    Metabolic engineering

    2023  Volume 81, Page(s) 26–37

    Abstract: For engineered microorganisms, the production of heterologous proteins that are often useless to host cells represents a burden on resources, which have to be shared with normal cellular processes. Within a certain metabolic leeway, this competitive ... ...

    Abstract For engineered microorganisms, the production of heterologous proteins that are often useless to host cells represents a burden on resources, which have to be shared with normal cellular processes. Within a certain metabolic leeway, this competitive process has no impact on growth. However, once this leeway, or free capacity, is fully utilized, the extra load becomes a metabolic burden that inhibits cellular processes and triggers a broad cellular response, reducing cell growth and often hindering the production of heterologous proteins. In this study, we sought to characterize the metabolic rearrangements occurring in the central metabolism of Pseudomonas putida at different levels of metabolic load. To this end, we constructed a P. putida KT2440 strain that expressed two genes encoding fluorescent proteins, one in the genome under constitutive expression to monitor the free capacity, and the other on an inducible plasmid to probe heterologous protein production. We found that metabolic fluxes are considerably reshuffled, especially at the level of periplasmic pathways, as soon as the metabolic load exceeds the free capacity. Heterologous protein production leads to the decoupling of anabolism and catabolism, resulting in large excess energy production relative to the requirements of protein biosynthesis. Finally, heterologous protein production was found to exert a stronger control on carbon fluxes than on energy fluxes, indicating that the flexible nature of P. putida's central metabolic network is solicited to sustain energy production.
    MeSH term(s) Pseudomonas putida/genetics ; Pseudomonas putida/metabolism ; Carbon/metabolism ; Metabolic Networks and Pathways ; Plasmids
    Chemical Substances Carbon (7440-44-0)
    Language English
    Publishing date 2023-11-02
    Publishing country Belgium
    Document type Journal Article
    ZDB-ID 1470383-x
    ISSN 1096-7184 ; 1096-7176
    ISSN (online) 1096-7184
    ISSN 1096-7176
    DOI 10.1016/j.ymben.2023.10.005
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  8. Article ; Online: Temperature sensitivity of decomposition

    Moinet, Gabriel Y.K. / Millard, Peter

    Geoderma

    Discrepancy between field and laboratory estimates is not due to sieving the soil

    2020  Volume 374

    Abstract: 2020 The Authors Is persistent soil organic matter (SOM), characterised by an old age and long-turnover time, more or less sensitive to changes in temperature than fast-cycling, recent SOM? Largely due to our limited understanding of the mechanisms of ... ...

    Abstract © 2020 The Authors Is persistent soil organic matter (SOM), characterised by an old age and long-turnover time, more or less sensitive to changes in temperature than fast-cycling, recent SOM? Largely due to our limited understanding of the mechanisms of SOM formation, this question remains controversial. Laboratory incubation studies, through sieving the soil, may create conditions in which substrate accessibility is modified. The recent recognition of SOM accessibility as a defining factor of SOM persistency calls into question conclusions from these studies. Previously, in a study using root exclusion plots of increasing age, we showed in the field that the temperature sensitivity of SOM decomposition decreased with increasing persistence of SOM (Moinet et al., 2020), in opposition to many laboratory incubation studies. Here we sampled soils from the same root exclusion plots and conducted a laboratory incubation experiment to test the hypotheses that (i) the relationship between temperature sensitivity and SOM persistence is inverted as compared to the field, and (ii) the discrepancy is due to sieving the soil. We showed that, in the laboratory, the relationship was indeed inverted, with the temperature sensitivity being higher for the old root exclusion plots. However, sieving the soil at 2 mm did not affect estimates of the temperature sensitivity of SOM decomposition, suggesting that discrepancies between field and laboratory estimates are unlikely to stem from artificially modified substrate accessibility due to sieving.
    Keywords SOM decomposition ; SOM persistence ; Sieving ; Soil carbon ; Temperature sensitivity
    Subject code 306
    Language English
    Publishing country nl
    Document type Article ; Online
    ZDB-ID 281080-3
    ISSN 1872-6259 ; 0016-7061
    ISSN (online) 1872-6259
    ISSN 0016-7061
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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    Z 2363: Show issues

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  9. Article ; Online: Measurement of the remobilization of nitrogen for spring leaf growth of trees under field conditions.

    Millard, P.

    Tree physiology

    2004  Volume 14, Issue 7_9, Page(s) 1049–1054

    Abstract: Remobilization of N for leaf growth in the spring was studied in adjacent plots of Picea sitchensis and Acer pseudoplatanas. Before the onset of bud burst in April 1992, a solution of (15)NH(4) (15)NO(3) (enriched to 7.5 atom %) was applied to the soil, ... ...

    Abstract Remobilization of N for leaf growth in the spring was studied in adjacent plots of Picea sitchensis and Acer pseudoplatanas. Before the onset of bud burst in April 1992, a solution of (15)NH(4) (15)NO(3) (enriched to 7.5 atom %) was applied to the soil, to supply 20 g N m(-2) over the total area of each plot. It was assumed that (15)N would remain in the soil nitrate- and ammonium-N pools, and so the appearance of (15)N in the leaves would indicate when soil N uptake started to contribute to leaf growth. Leaf N present before the appearance of (15)N from the fertilizer was assumed to be remobilized N. Growth of P. sitchensis needles continued for 45-50 days after bud burst, but their N content showed no consistent pattern throughout the spring and early sumer. The majority of needle N was already present at the initial samplings, immediately after bud burst, and any increases in needle N content occurred concomitantly with uptake of fertilizer (15)N. Acer pseudoplatanus leaves also grew for the duration of the experiment and their N content increased for the first 35 days after bud burst, reaching approximately 15 mg N leaf(-1). Acer pseudoplatanus leaves had approximately 5 mg N leaf(-1) before any (15)N was recovered, indicating that remobilization of N accounted for approximately one third of leaf N.
    Language English
    Publishing date 2004-01-22
    Publishing country Canada
    Document type Journal Article
    ZDB-ID 743341-4
    ISSN 1758-4469 ; 0829-318X
    ISSN (online) 1758-4469
    ISSN 0829-318X
    DOI 10.1093/treephys/14.7-8-9.1049
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  10. Article ; Online: Nitrogen uptake, partitioning and internal cycling in Picea sitchensis (Bong.) Carr. as influenced by nitrogen supply.

    Millard, P / Proe, M F

    The New phytologist

    2012  Volume 125, Issue 1, Page(s) 113–119

    Abstract: Four-year-old seedlings of Picea sitchensis (Bong.) Carr. were grown in sand culture throughout 1989 and irrigated with nutrient solutions containing either 1.0 mol N ... ...

    Abstract Four-year-old seedlings of Picea sitchensis (Bong.) Carr. were grown in sand culture throughout 1989 and irrigated with nutrient solutions containing either 1.0 mol N m
    Language English
    Publishing date 2012-01-09
    Publishing country England
    Document type Journal Article
    ZDB-ID 208885-x
    ISSN 1469-8137 ; 0028-646X
    ISSN (online) 1469-8137
    ISSN 0028-646X
    DOI 10.1111/j.1469-8137.1993.tb03869.x
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