We report on the production of hydrocortisone, the major adrenal glucocorticoid of mammals and an important intermediate of steroidal drug synthesis, from a simple carbon source by recombinant Saccharomyces cerevisiae strains. An artificial and fully self-sufficient biosynthetic pathway involving 13 engineered genes was assembled and expressed in a single yeast strain. Endogenous sterol biosynthesis was rerouted to produce compatible sterols to serve as substrates for the heterologous part of the pathway. Biosynthesis involves eight mammalian proteins (mature forms of CYP11A1, adrenodoxin (ADX), and adrenodoxin reductase (ADR); mitochondrial forms of ADX and CYP11B1; 3beta-HSD, CYP17A1, and CYP21A1). Optimization involved modulating the two mitochondrial systems and disrupting of unwanted side reactions associated with ATF2, GCY1, and YPR1 gene products. Hydrocortisone was the major steroid produced. This work demonstrates the feasibility of transfering a complex biosynthetic pathway from higher eukaryotes into microorganisms.
Despite recent technical improvements, the construction of recombinant adenovirus vectors remains a time-consuming procedure which requires extensive manipulations of the viral genome in both Escherichia coli and eukaryotic cells. This report describes a novel system based on the cloning and manipulation of the full-length adenovirus genome as a stable plasmid in E. coli, by using the bacterial homologous recombination machinery. The efficiency and flexibility of the method are illustrated by the cloning of the wild-type adenovirus type 5 genome, the insertion of a constitutive promoter upstream from the E3 region, the replacement of the E1 region by an exogenous expression cassette, and the deletion of the E1 region. All recombinant viral DNAs were shown to be fully infectious in permissive cells, and the modified E3 region or the inserted foreign gene was correctly expressed in the infected cells.
The molar conversion yield of Cys-3MH into 3MH, during alcoholic fermentation, was traced using a deuterated isotope of the precursor added to different Sauvignon Blanc musts. This yield is close to that found in synthetic media supplemented with synthetic Cys-3MH, that is, below 1%. Yet, this represents only 3-7% of the total 3MH production in wine. This clearly shows that Cys-3MH is a precursor of 3MH, but not the main one in the different musts tested. The contribution of ( E)-hex-2-enal, which has been suggested as another potential precursor of 3MH, was discarded as well, as shown using also a deuterated analogue. The third suggested precursor of 3MH is a glutathionyl-3MH (G-3MH), which upon proteolytic degradation could release Cys-3MH. The knockout of the OPT1 gene, which encodes the major glutathione transporter, reduces 3MH accumulation by a 2-fold factor in grape must as compared to the wild type strain. Consequently, it is deduced that major 3MH precursor(s) are transported into yeast via Opt1p, which is in favor of G-3MH being a 3MH precursor. This work opens the search for the major natural precursor(s) of 3MH in Sauvignon Blanc must.
Cloned cDNAs have been isolated that encode a variant of hirudin, a potent thrombin inhibitor that is secreted by the salivary glands of the medicinal leech, Hirudo medicinals. This variant probably corresponds to a form that has been purified from leech heads but differs in amino acid sequence from the hirudin purified from whole leeches. There are at least three hirudin transcripts detectable in leech RNAs that are different in size, site of synthesis, inducibility by starvation, and relationship to hirudin activity. The new hirudin variant predicted by the cDNA and the heterodisperse transcription products suggest a hirudin protein family. The hirudin cDNA was expressed in Esckerichia coli under the control of the bacteriophage X PL promoter. The recombinant product is biologically active, inhibiting the cleavage by thrombin of fibrinogen and a synthetic tripeptide substrate.Leech hirudin is the most potent natural inhibitor of coagulation known (1-4). A very stable noncovalent 1:1 complex is rapidly and specifically formed with a-thrombin, thereby abolishing its ability to cleave fibrinogen (4). To date there is no evidence that it can interact with other components of the human coagulation cascade (5, 6).Hirudin is a polypeptide of 65 amino acids that is stable to extremes of pH and heat (4). It contains six cysteine residues grouped in the NH2-terminal half of the protein, an acidic COOH-terminal half, and one sulfated tyrosine (7). A hirudin form with isoleucine at the NH2 terminus was first purified from leech heads (H. medicinalis) (4, 8) in which activity was found to be concentrated in the salivary glands. Subsequently, Bagdy et al. (9) adopted new purification schemes using whole leeches instead of heads, yielding a form with Val-Val as the first two NH2-terminal amino acids. The amino acid sequence of the "whole body form" has been determined by independent groups (8, 10), and valine residues at positions 1 and 2 have been confirmed. Both forms had a specific activity of around 8000-10,000 antithrombin units/mg. However, more recently, Baskova et al. (11) Hirudin Activity. Antithrombin activity in leech or bacterial extracts was measured in a clotting assay (4) using citrated human platelet-poor plasma as a fibrinogen source or in a colorimetric assay using the thrombin chromogenic substrate Tos-Gly-Pro-Arg-p-nitroanilide (Chromozym TH, Boehringer Mannheim; Tos = tosyl) (7). Standard curves Abbreviation: kb, kilobases. tPresent address:
The first two steps of the steroidogenic pathway were reproduced in Saccharomyces cerevisiae. Engineering of sterol biosynthesis by disruption of the delta 22-desaturase gene and introduction of the Arabidopsis thaliana delta 7-reductase activity and coexpression of bovine side chain cleavage cytochrome P450, adrenodoxin, and adrenodoxin reductase, lead to pregnenolone biosynthesis from a simple carbon source. Following additional coexpression of human 3 beta-hydroxysteroid dehydrogenase/isomerase, pregnenolone is further metabolized to progesterone. Steroid formation appears to be coupled to yeast sterol biosynthesis.
The free thiols 3-mercapto-hexanol (3MH) and its acetate, practically absent from musts, are liberated by yeast during fermentation from a cysteinylated precursor [S-3-(hexan-1-ol)-l-cysteine (Cys-3MH)] present in the grape must and contribute favorably to the flavor of Sauvignon white wines. Production of 3MH is increased when urea is substituted for diammonium phosphate (DAP) as the sole nitrogen source on a synthetic medium. On grape must, complementation with DAP induces a decrease of 3MH production. This observation is reminiscent of nitrogen catabolite repression (NCR). The production of 3MH is significantly lower for a gap1Delta mutant compared with the wild type, during fermentation of a synthetic medium containing Cys-3MH as the precursor and urea as the sole nitrogen source. Mutants isolated from an enological strain with a relief of NCR on GAP1 produce significantly higher amounts of 3MH on synthetic medium than the parental strain. These phenotypes were not confirmed on grape must. It is concluded that on synthetic medium, Cys-3MH enters the cell through at least one identified transporter, GAP1p, whose activity is limiting the release of volatile thiols. On grape must, the uptake of the precursor through GAP1p is not confirmed, but the effect of addition of DAP, eventually prolonging NCR, is shown to decrease thiol production.
Two low molecular weight (LMW) apoproteins were isolated from human pulmonary surfactant. SDS polyacrylamide gel analysis showed one protein (SP 18) to have an apparent molecular weight of 18,000 when unreduced and 9,000 D after reduction. The second protein (SP 9) migrated at -9,000 D in the presence or absence of reducing agents. Both proteins contain a high number of hydrophobic amino acids. The NH2-terminal sequence of SP 18 was determined to be: NH2-phe-proile-pro-leu-pro-tyr-. A cDNA clone isolated from a human adult lung cDNA library contained a long open reading frame encoding at an internal position the human SP 18 amino-terminal sequence.Mixtures of phospholipids (PL) and SP 9 and SP 18 were assessed for their capacity to reduce surface tensions on a pulsating bubble surfactometer. The addition of 1% apoprotein resulted in a reduction of surface tension after 15 s from 42.9 dyn/cm for PL alone to 16.7 and 6.3 dyn/cm for preparations containing SP 9 and SP 18, respectively. In vivo assessment of reconstituted surfactant activity was performed in fetal rabbits. Reconstituted surfactant consisting of PL + 0.5% SP 18 instilled intratracheally at delivery resulted in a marked increase in lung compliance, while the incorporation of 0.5% SP 9 yielded a moderate increase. These data show the ability to produce biologically active surfactant by the addition of isolated LMW apoproteins to defined PL.
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