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971.
Cooperation between Lactococcus lactis and nonstarter lactobacilli in the formation of cheese aroma from amino acids 总被引:2,自引:0,他引:2
In Gouda and Cheddar type cheeses the amino acid conversion to aroma compounds, which is a major process for aroma formation, is essentially due to lactic acid bacteria (LAB). In order to evaluate the respective role of starter and nonstarter LAB and their interactions in cheese flavor formation, we compared the catabolism of phenylalanine, leucine, and methionine by single strains and strain mixtures of Lactococcus lactis subsp. cremoris NCDO763 and three mesophilic lactobacilli. Amino acid catabolism was studied in vitro at pH 5.5, by using radiolabeled amino acids as tracers. In the presence of alpha-ketoglutarate, which is essential for amino acid transamination, the lactobacillus strains degraded less amino acids than L. lactis subsp. cremoris NCDO763, and produced mainly nonaromatic metabolites. L. lactis subsp. cremoris NCDO763 produced mainly the carboxylic acids, which are important compounds for cheese aroma. However, in the reaction mixture containing glutamate, only two lactobacillus strains degraded amino acids significantly. This was due to their glutamate dehydrogenase (GDH) activity, which produced alpha-ketoglutarate from glutamate. The combination of each of the GDH-positive lactobacilli with L. lactis subsp. cremoris NCDO763 had a beneficial effect on the aroma formation. Lactobacilli initiated the conversion of amino acids by transforming them mainly to keto and hydroxy acids, which subsequently were converted to carboxylic acids by the Lactococcus strain. Therefore, we think that such cooperation between starter L. lactis and GDH-positive lactobacilli can stimulate flavor development in cheese. 相似文献
972.
Chevallet M Diemer H Luche S van Dorsselaer A Rabilloud T Leize-Wagner E 《Proteomics》2006,6(8):2350-2354
Sequence coverage in MS analysis of protein digestion-derived peptides is a key issue for detailed characterization of proteins or identification at low quantities. In gel-based proteomics studies, the sequence coverage greatly depends on the protein detection method. It is shown here that ammoniacal silver detection methods offer improved sequence coverage over standard silver nitrate methods, while keeping the high sensitivity of silver staining. With the development of 2D-PAGE-based proteomics, another burden is placed on the detection methods used for protein detection on 2-D-gels. Besides the classical requirements of linearity, sensitivity, and homogeneity from one protein to another, detection methods must now take into account another aspect, namely their compatibility with MS. This compatibility is evidenced by two different and complementary aspects, which are (i) the absence of adducts and artefactual modifications on the peptides obtained after protease digestion of a protein detected and digested in - gel, and (ii) the quantitative yield of peptides recovered after digestion and analyzed by the mass spectrometer. While this quantitative yield is not very important per se, it is however a crucial parameter as it strongly influences the S/N of the mass spectrum and thus the number of peptides that can be detected from a given protein input, especially at low protein amounts. This influences in turn the sequence coverage and thus the detail of the analysis provided by the mass spectrometer. 相似文献
973.
974.
Anne-Catherine Fitchette-Lainé Véronique Gomord Marion Cabanes Jean-Claude Michalski Mireille Saint Macary Bernard Foucher Brigitte Cavelier Chris Hawes Patrice Lerouge Loïc Faye 《The Plant journal : for cell and molecular biology》1997,12(6):1411-1417
In plants, N -linked glycans are processed in the Golgi apparatus to complex-type N -glycans of limited size containing a β(1,2)-xylose and/or an α(1,3)-fucose residue. Larger mono- and bi-antennary N -linked complex glycans have not often been described. This study has re-examined the structure of such plant N -linked glycans, and, through both immunological and structural data, it is shown that the antennae are composed of Lewis a (Lea ) antigens, comprising the carbohydrate sequence Galβ1-3[Fucα1-4]GlcNAc. Furthermore, a fucosyltransferase activity involved in the biosynthesis of this antigen was detected in sycamore cells. This is the first characterization in plants of a Lewis antigen that is usually found on cell-surface glycoconjugates in mammals and involved in recognition and adhesion processes. Lea -containing N -linked glycans are widely distributed in plants and highly expressed at the cell surface, which may suggest a putative function in cell/cell communication. 相似文献
975.
Luciani N Brasse-Lagnel C Poli M Anty R Lesueur C Cormont M Laquerriere A Folope V LeMarchand-Brustel Y Gugenheim J Gual P Tran A Bekri S 《Obesity (Silver Spring, Md.)》2011,19(8):1545-1551
The adipose tissue may play an active role in systemic iron regulation and this role may be determinant in obese patients. Indeed, we reported previously that hepcidin, the iron-regulatory hormone, is expressed in adipose tissue and its messenger RNA (mRNA) expression is increased in adipose tissue of morbidly obese patients. The objectives of this study were to characterize the status of hemojuvelin (HJV), another iron-regulatory protein, within the adipose tissue of morbidly obese patients. Since cell-associated HJV acts as a coreceptor of bone morphogenetic protein (BMP) to enhance hepcidin expression in liver cells, we investigated the possible involvement of this pathway in adipose tissue in regulating hepcidin expression. HJV expression was studied in adipose tissue of morbidly obese patients. Soluble HJV blood concentrations were assessed. Hepcidin regulation through BMP pathway was investigated in cultured adipocytes. HJV was expressed both at mRNA and protein levels in adipose tissue. Moreover, its mRNA expression was highly increased in adipose tissue of obese patients and correlated with mRNA hepcidin expression levels. Interestingly, HJV expressed by adipose tissue may be effective since cultured adipocytes increased their hepcidin expression when challenged with BMP2 through Smad effectors. In addition, blood concentrations of soluble HJV were significantly increased. In conclusion, adipose tissue may influence iron homeostasis in obese patients by expressing major iron-regulatory proteins and the BMP signaling pathway could be involved in regulating hepcidin expression in this tissue. 相似文献
976.
977.
Irene Monika Hfliger Sonja Hofstetter Thomas Mock Manuela Hanna Stettler Mireille Meylan Kemal Mehinagic Nadine Stokar‐Regenscheit Cord Drgemüller 《Animal genetics》2019,50(4):372-375
In 2015, cholesterol deficiency (CD) was reported for the first time as a new recessive defect in Holstein cattle. After GWAS mapping and identification of a disease‐associated haplotype, a causative loss‐of‐function variant in APOB was identified. CD‐clinically affected APOB homozygotes showed poor development, intermittent diarrhea and hypocholesterolemia and, consequently, a limited life expectation. Herein, we present a collection of 18 cases clinically diagnosed as CD‐affected APOB heterozygotes. CD‐clinically affected heterozygotes show reduced cholesterol and triglyceride blood concentrations. The differences in total blood cholesterol and triglycerides between nine CD‐clinically affected and 36 non‐affected heterozygotes were significant. As only some APOB heterozygotes show the clinical CD phenotype, we assume that the penetrance is reduced in heterozygotes compared to the fully penetrant effect observed in homozygotes. We conclude that APOB‐associated CD represents most likely an incomplete dominant inherited metabolic disease with incomplete penetrance in heterozygotes. 相似文献
978.
Mireille J. de Wit Rudy M. Landsvater Richard J. Sinke A. Geurts van Kessel Cornelis J. M. Lips J. W. M. Höppener Mireille J. de Wit 《Human genetics》1996,99(1):133-137
Multiple endocrine neoplasia type 1 (MEN 1) is inherited as an autosomal dominant disorder, characterized by hyperplasia
and neoplasia in several endocrine organs. The MEN 1 gene, which is most probably a tumor suppressor gene, has been localized
to a 900-kb region on chromosome 11q13. The human phosphatidylinositol-specific phospholipase C β3 (PLC β3) gene, which is
located within this region, was considered to be a good candidate for the MEN 1 gene. In this study, the structure and expression
of the PLC β3 gene in MEN 1 patients were investigated in more detail, to determine its potential role in MEN 1 tumorigenesis.
Southern blot analysis, using blood and tumor DNA from affected persons from seven different MEN 1 families, did not reveal
structural abnormalities in the PLC β3 gene. To detect possible point mutations, or other small structural aberrations, direct
sequencing of PLC β3 cDNAs from two affected persons from two different MEN 1 families was performed, but no MEN 1-specific
abnormalities were revealed. Several common nucleotide sequence polymorphisms were detected in these cDNAs, proving that both
alleles of the PLC β3 gene were expressed and analyzed. In conclusion, these results exclude the PLC β3 gene as a candidate
gene for MEN 1.
Received: 20 March 1996 相似文献
979.
Maja Musse Kévin Bidault Stéphane Quellec Béatrice Brunel Guylaine Collewet Mireille Cambert Nadia Bertin 《The Plant journal : for cell and molecular biology》2021,105(1):62-78
Fruits are complex organs that are spatially regulated during development. Limited phenotyping capacity at cell and tissue levels is one of the main obstacles to our understanding of the coordinated regulation of the processes involved in fruit growth and quality. In this study, the spatial evolution of biophysical and metabolic traits of peach and apple fruit was investigated during fruit development. In parallel, the multi-exponential relaxation times and apparent microporosity were assessed by quantitative magnetic resonance imaging (MRI). The aim was to identify the possible relationships between MRI parameters and variations in the structure and composition of fruit tissues during development so that transverse relaxation could be proposed as a biomarker for the assessment of the structural and functional evolution of fruit tissues during growth. The study provides species-specific data on developmental and spatial variations in density, cell number and size distribution, insoluble and soluble compound accumulation and osmotic and water potential in the fruit mesocarp. Magnetic resonance imaging was able to capture tissue evolution and the development of pericarp heterogeneity by accessing information on cell expansion, water status and distribution at cell level, and microporosity. Changes in vacuole-related transverse relaxation rates were mostly explained by cell/vacuole size. The impact of cell solute composition, microporosity and membrane permeability on relaxation times is also discussed. The results demonstrate the usefulness of MRI as a tool to phenotype fruits and to access important physiological data during development, including information on spatial variability. 相似文献
980.
Pierre Giraud Jean-Yves Maltèse Françpise Boudouresque Paul Salers L'Houcine Ouafik Mireille Renard François Pelen Charles Oliver 《Biological trace element research》1992,32(1-3):293-301
Carboxy-terminal amidation of biologically active peptides, an important characteristic of more than half of these substances, occurs during the maturation process of peptide precursors. It is catalyzed by peptidylglycine α-amidating monooxygenase (PAM), an enzyme that is copper-dependent. We show here that alterations of copper stores in cultured cells from different origins (pancreas and hypothalamus) affect the immunoreactivity of thyrotropin-releasing hormone (TRH) and corticotropin-releasing factor (CRF) (two α-amidated peptides). This suggests that copper can affect neuropeptide biosynthesis and may play a role in the endocrine or central nervous system function. 相似文献