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Rym Kaddour Sabah M’rah Najoua Karray-Bouraoui Cécile Lambert Pierre Berthomieu Mokhtar Lachaâl 《Acta Physiologiae Plantarum》2010,32(3):503-510
Arabidopsis thaliana is a glycophyte capable to tolerate mild salinity. Although salt sensitivity of this species, a variability of this characteristic
was revealed between different ecotypes. This study presents the physiological and molecular characteristics of salt response
of two ecotypes, NOK2 and Columbia (Col). Seedlings were cultivated in hydroponics in the presence of 0 or 50 mM NaCl during 25 days. Rosette leaf samples were collected
after 19, 22, and 25 days for determination of physiological parameters, and after 18 days for study of DNA polymorphism.
Salt treatment decreased rosette dry matter, leaf number, leaf hydration, and leaf surface area. All these effects were significantly
more visible in Col than in NOK2. Moreover, the NOK2 leaves accumulated less Na+ and more K+ than those of Col. DNA polymorphism between the two ecotypes was analyzed with codominant molecular markers based on PCR amplification, namely,
microsatellites, cleaved amplified polymorphism sequence (CAPS), and single nucleotide polymorphism markers (SNP). Among the
35 tested markers, 17 showed a clear polymorphism and were distributed on the five Arabidopsis chromosomes ending with a genetic map construction. These results could play an important role in the future establishment
of cartography of candidate gene controlling the K+/Na+ selectivity of ion transport in leaves, a component of plant salt tolerance. 相似文献
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Audrey Moine Rym Agrebi Leon Espinosa John R. Kirby David R. Zusman Tam Mignot Emilia M. F. Mauriello 《PLoS genetics》2014,10(3)
Chemosensory systems (CSS) are complex regulatory pathways capable of perceiving external signals and translating them into different cellular behaviors such as motility and development. In the δ-proteobacterium Myxococcus xanthus, chemosensing allows groups of cells to orient themselves and aggregate into specialized multicellular biofilms termed fruiting bodies. M. xanthus contains eight predicted CSS and 21 chemoreceptors. In this work, we systematically deleted genes encoding components of each CSS and chemoreceptors and determined their effects on M. xanthus social behaviors. Then, to understand how the 21 chemoreceptors are distributed among the eight CSS, we examined their phylogenetic distribution, genomic organization and subcellular localization. We found that, in vivo, receptors belonging to the same phylogenetic group colocalize and interact with CSS components of the respective phylogenetic group. Finally, we identified a large chemosensory module formed by three interconnected CSS and multiple chemoreceptors and showed that complex behaviors such as cell group motility and biofilm formation require regulatory apparatus composed of multiple interconnected Che-like systems. 相似文献
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We report the identification and typing of a congenital toxoplasmosis case in a diabetic pregnant young woman living in Tunis. The Toxoplasma DNA extracted from amniotic fluid was detected by Real Time PCR and subjected to a multilocus genetic characterisation of the strain at markers: 3'SAG2, 5'SAG2, New SAG2, SAG3, GRA6, BTUB, APICO, PK1, KT850 and UPRT1. An atypical genotype of T.gondii with unusual genetic composition was revealed. It is the first time that an atypical strain has been associated with congenital toxoplasmosis in Africa. Atypical strains are associated with severe clinical manifestations so systematic genotyping should be investigated with the amniocentesis. 相似文献
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Rym Berhouma Soumaya Kouidhi Myriam Ammar Hafawa Abid Hajer Ennafaa Amel Benammar-Elgaaied 《Biochemical genetics》2013,51(3-4):256-263
Our study aimed to analyze whether the expression of PPARγ mRNA in subcutaneous adipocyte tissue correlates with Pro12Ala PPARγ2 polymorphism in the obesity context. We found that mRNA expression of PPARγ in subcutaneous adipose tissue was greater in obese subjects (P < 0.05) than in the nonobese control group. Concurrently, genotyping of the Pro12Ala polymorphism showed that obese subjects possess a significantly higher frequency of the Pro/Pro genotype than nonobese controls (90.5 vs 79.5%; P = 0.03), suggesting that this genotype is involved in an increased risk of obesity in the Tunisian population. Taken together, our results demonstrate that the Pro12 allele is accompanied by an overexpression of PPARγ mRNA in subcutaneous adipocyte tissue, suggesting that the PPARγ Pro12Ala variant may contribute to the observed variability in PPARγ mRNA expression and consequently in body mass index and insulin sensitivity in the general population. 相似文献
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Majdi Nagara Afaf Tiar Nizar Ben Halim Faten Ben Rhouma Olfa Messaoud Yosra Bouyacoub Rym Kefi Saida Hassayoun Noura Zouari Mohamed Slim Ben Ammar Sonia Abdelhak Jalel Chemli 《Gene》2013
Background
Primary hyperoxaluria type 1 (PH1) is an autosomal recessive inherited metabolic disease, characterized by progressive kidney failure due to renal deposition of calcium oxalate. Mutations in the AGXT gene, encoding the liver-specific enzyme alanine glyoxylate aminotransferase, are responsible for the disease. We aimed to determine the mutational spectrum causing PH1 and to provide an accurate tool for diagnosis as well as for prenatal diagnosis in the affected families.Methods
Direct sequencing was used to detect mutations in the AGXT gene in DNA samples from 13 patients belonging to 12 Tunisian families.Results
Molecular analysis revealed five mutations causing PH1 in Tunisia. The mutations were identified along exons 1, 2, 4, 5 and 7. The most predominant mutations were the Maghrebian “p.I244T” and the Arabic “p.G190R”. Furthermore, three other mutations characteristic of different ethnic groups were found in our study population. These results confirm the mutational heterogeneity related to PH1 in Tunisian population. All the mutations are in a homozygous state, reflecting the high impact of endogamy in our population.Conclusion
Mutation analysis through DNA sequencing can provide a useful first line investigation for PH1. This identification could provide an accurate tool for prenatal diagnosis, genetic counseling and screen for potential presymptomatic individuals. 相似文献26.
Hela Mahmoudi Rym Kaddour Jun Huang Nawel Nasri Baâtour Olfa Sabah M’Rah Abdelali Hannoufa Mokhtar Lachaâl Zeineb Ouerghi 《Acta Physiologiae Plantarum》2011,33(5):1613-1622
Salt stress perturbs a multitude of physiological processes such as photosynthesis and growth. To understand the biochemical
changes associated with physiological and cellular adaptations to salinity, two lettuce varieties (Verte and Romaine) were
grown in a hydroponics culture system supplemented with 0, 100 or 200 mM NaCl. Verte displayed better growth under 100 mM
NaCl compared to Romaine, but both genotypes registered relatively similar reductions in growth under 200 mM NaCl treatment.
Both varieties showed differences in net photosynthetic activity in the absence of salt and 8 days after salt treatment. These
differences diminished subsequently under prolonged salt stress (14 days). Verte showed enhanced leaf proline and restricted
total cations especially Na+, lesser malondialdehyde (MDA) formation and lignification in the roots under 100 mM NaCl salinity. Membrane damage estimated
by electrolyte leakage increased with elevated salt concentrations in roots of both varieties, but Verte had significantly
lower electrolyte leakage relative to Romaine under 100 mM NaCl. Moreover, Verte also accumulated greater levels of carotenoids
under increasing NaCl concentrations compared to Romaine. Taken together, these findings suggest that the greater tolerance
of Verte to 100 mM NaCl is related to the more restricted accumulation of total cations and toxic Na+ in the roots and enhanced levels of antioxidative metabolites in root and leaf tissue. 相似文献
27.
Lahjouji K Aouameur R Bissonnette P Coady MJ Bichet DG Lapointe JY 《Biochimica et biophysica acta》2007,1768(5):1154-1159
Myo-inositol (MI) is involved in several important aspects of cell physiology including cell signaling and the control of intracellular osmolarity i.e. by serving as a "compatible osmolyte". Currently, three MI cotransporters have been identified: two are Na(+)-dependent (SMIT1 and SMIT2) and one is H(+)-dependent (HMIT) and predominantly expressed in the brain. The goal of this study was to characterize the expression of SMIT2 in rabbit kidney and to compare it to SMIT1. First, we quantified mRNA levels for both transporters using quantitative real-time PCR and found that SMIT1 was predominantly expressed in the medulla while SMIT2 was mainly in the cortex. This distribution of SMIT2 was confirmed on Western blots where an antibody raised against a SMIT2 epitope specifically detected a 75 kDa protein in both tissues. Characterization of MI transport in brush-border membrane vesicles (BBMV), in the presence of d-chiro-inositol and l-fucose to separately identify SMIT1 and SMIT2 activities, showed that only SMIT2 is expressed at the luminal side of proximal convoluted tubules. We thus conclude that, in the rabbit kidney, SMIT2 is predominantly expressed in the cortex where it is probably responsible for the apical transport of MI into the proximal tubule. 相似文献
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JR Undan M Tamiru A Abe K Yoshida S Kosugi H Takagi K Yoshida H Kanzaki H Saitoh R Fekih S Sharma J Undan M Yano R Terauchi 《Genes & genetic systems》2012,87(3):169-179
The rice (Oryza sativa L.) lesion mimic and senescence (lms) EMS-mutant, identified in a japonica cultivar Hitomebore, is characterized by a spontaneous lesion mimic phenotype during its vegetative growth, an accelerated senescence after flowering, and enhanced resistance to rice blast (Magnaporthe oryzae). To isolate the OsLMS gene, we crossed the lms mutant to Kasalath (indica), and used mutant F(2) plants to initially map the candidate region to about 322-kb on the long arm of chromosome 2. Illumina whole-genome re-sequencing of the mutant and aligning the reads to Hitomebore reference sequence within the candidate region delineated by linkage analysis identified a G to A nucleotide substitution. The mutation corresponded to the exon-intron splicing junction of a novel gene that encodes a carboxyl-terminal domain (CTD) phosphatase domain and two double stranded RNA binding motifs (dsRBM) containing protein. By PCR amplification, we confirmed that the mutation causes splicing error that is predicted to introduce a premature stop codon. RNA interference (RNAi) transgenic lines with suppressed expression of LMS gene exhibited the lesion mimic phenotype, confirming that the mutation identified in LMS is responsible for the mutant phenotype. OsLMS shares a moderate amino-acid similarity to the Arabidopsis FIERY2/CPL1 gene, which is known to control many plant processes such as stress response and development. Consistence with this similarity, the lms mutant shows sensitivity to cold stress at the early growth stage, suggesting that LMS is a negative regulator of stress response in rice. 相似文献