Vaughan Stampe (atticopera3)

Local duplication was shown to play a predominant role in gene expansion in papaya, castor, and jatropha, which is only confined to the Lhcb1 group. By contrast, WGD plays a relatively more important role in cassava, arabidopsis, and other Brassicaceous plants. Further comparison of Brassicaceous plants revealed that loss of the SEP6 group in arabidopsis is lineage-specific, occurring sometime after papaya-arabidopsis divergence but before the radiation of Brassicaceous plants. Transcriptional profiling revealed a leaf-preferential expression pattern of most CpLhc superfamily genes and their transcript levels were markedly regulated by three abiotic stresses, i.e., mimicking drought, cold, and high salt. These findings not only facilitate further functional studies in papaya, but also improve our knowledge on lineage-specific evolution of this special gene superfamily in Brassicaceae. Pigs have been increasingly recognized as a relevant model for studying many human diseases. However, functions and regulations of numerous critical molecules involved in human diseases are not well characterized in pigs, including the prominent tumor suppressor p53, a transcription factor involved in various anti-proliferative processes. In this study, we systematically characterized porcine p53 (p-p53) in its transcriptional activity and regulation by the E3 ligase Mdm2, in comparison with that of human p53 (h-p53). p-p53 is highly homologous to h-p53 with the N-terminal region showing relative divergence. p-p53 exhibits a comparable transcriptional activity to that of h-p53 towards a diverse range of known target genes, and is subject to ubiquitination and degradation by both human and porcine Mdm2 (h-/p-Mdm2). Utilization of the h-Mdm2 targeting compound Nutlin-3 and protein RPL11 inhibits the negative effect of p-Mdm2 on p-p53. These results suggest that the transcription activity and regulation of p-p53 is very similar to that of h-p53, and that the developed agents targeting the h-p53 pathway could be used in the study of p53 related processes and diseases in pigs. The kallikrein-related peptidase 15 (KLK15) gene is a member of the largest cluster of serine proteases in the human genome. Exhibiting trypsin-like activity, KLK15 is most likely involved in the activation of prostate-specific antigen (PSA; also known as KLK3), an established biomarker for the diagnosis and screening of prostate cancer. High mRNA expression levels of KLK15 have already been reported in ovarian and prostate cancer, in contrast with breast cancer, where KLK15 has been proposed as a biomarker of favorable prognosis. In this study, we exploited the next-generation sequencing (NGS) technology along with 3' rapid amplification of cDNA ends (3' RACE) to discover alternative KLK15 splice variants. Extensive computational analysis of the obtained NGS data revealed the existence of novel splice junctions, thus supporting the existence of novel KLK15 transcripts. Six novel KLK15 splice variants were identified and verified by Sanger sequencing. Two of them (KLK15 v.11 and v.12) contain an open reading frame and are hence predicted to encode two novel KLK15 protein isoforms. Expression analysis of each KLK15 splice variant in sixteen cDNA pools from malignant cell lines and in normal cell lines (HEK293, HaCaT, and BJ cells) revealed very different expression profiles of particular KLK15 transcripts. Moreover, the new KLK15 splice variants were shown to be expressed in breast, ovarian, prostate, urinary bladder, colon, and renal tissue specimens. Due to the prominent clinical value of KLK15 mRNA expression, the novel KLK15 transcripts appear as candidate cancer biomarkers for diagnostic and/or prognostic purposes and therefore merit further investigation. V.BACKGROUND AND AIMS The current guidelines recommend the same surveillance interval for ≥3 nonadvanced adenomas (NAAs), without discriminating between diminutive (1-5 mm) and small (6-9 mm) adenomas. Additionally, the