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“P>Plants often experience challenging hypoxic conditions imposed by soil waterlogging or complete flooding. In rice, Sub1A, a flooding-induced ethylene responsive factor (ERF) plays a crucial role in submergence tolerance. In this study, we examined two Arabidopsis Hypoxia Responsive ERF genes (HRE1 and HRE2), belonging to the same ERF group as Sub1A. Transgenic Arabidopsis plants, which over-expressed HRE1, showed an improved tolerance of anoxia, whereas a double-knockout mutant hre1hre2 was more susceptible
than the wild type. HRE1 over-expressing plants showed an increased activity in the fermentative enzymes pyruvate decarboxylase and alcohol dehydrogenase together with increased ethanol production under hypoxia, but not in normoxia. Whole-genome microarray analyses suggested that an over-expression of HRE1, but not HRE2, increased the induction of most anaerobic genes under hypoxia. Real-time quantitative (q)PCR analyses confirmed a positive PU-H71 chemical structure effect of HRE1 over-expression on several anaerobic genes, whereas the double-knockout mutant hre1hre2 showed a decreased expression RSL3 cell line in the same genes after 4 h of hypoxia. Single-knockout mutants did not show significant
differences from the wild type. We found that the regulation of HRE1 and HRE2 by low oxygen relies on different mechanisms, since HRE1 requires protein synthesis to be induced while HRE2 does not. HRE2 is likely to be regulated post-transcriptionally by mRNA stabilization. We propose that HRE1 and HRE2 play a partially redundant role in low oxygen signalling in Arabidopsis thaliana, thus improving the tolerance of the plant to the stress by enhancing anaerobic gene expression and ethanolic fermentation.”
“Background: ABT-737 This study examined how language reflective of emotional and social processes during a cancer-related discussion relates to patient, couple, and family adjustment after breast cancer. It investigated whether emotional expression or relational focus,
manifested in language use, indicates healthy family coping following breast cancer.
Methods: Family members each completed measures of adjustment (Family Environment Scale, Dyadic Adjustment Scale, and patient Profile of Mood States) and engaged in a 15-min family discussion about how they have coped with breast cancer. Transcripts from the discussion were submitted to a text-analysis software program to obtain frequency of positive and negative emotion words, and personal pronouns spoken by each family member. The relationship between self-reports of adjustment and frequency of language use during the family discussion was analyzed with regression models.
Results: Partners’ positive emotion words were indicative of better family adjustment, patients’ negative emotion words indicated greater family conflict, and sons’ and daughters’ anger words indicated poorer adjustment, whereas their anxiety words indicated better family adjustment.