A NEW PALEOCENE BIRD FROM ANHUI, CHINA

redspecimenrepersentsanewgenusandspecies.Wanshuinaliigen.etsp.nov.SpecimenShaftofarighthumerus,andthedistalendofaIefttibiotarsusanda1efttarsometatarsus,Vlo529.DistributionQianshan,AnhuiProvince;Paleocene,DoumuFormation.DiagnosisSizesma1l-medium,humeruss1enderandlong,mediancrestventraleelongated,tibiotarsuscompressedanteroposteriorly,externalcondy1eroundinlateraIview,grooveforperoneusprofundusdeepandlong;internalcondylelongerthanex-ternalcondyle,adepressionwelldeve1opedin1owerborder0finter…     

Production of a value-added hydroxy fatty acid, 7,10-dihydroxy-8(<Emphasis Type="Italic">E</Emphasis>)-octadecenoic acid,from high oleic safflower Oil by <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> PR3

Hydroxy fatty acids (HFAs), originally obtained in small amounts from plant systems, are good examples of structurally modified lipids, and they render special properties such as higher viscosity and reactivity compared to normal fatty acids. Based on these properties, HFAs possess high industrial potential in a wide range of applications. Recently, various microbial strains were tested for the production of HFAs from different unsaturated fatty acids since HFA production is limited to plant systems. Among the microbial strains tested, Pseudomonas aeruginosa PR3 has been well studied for the production of 7,10-dihydroxy-8(E)-octadecenoic acid (DOD) from oleic acid. Previously, we reported that strain PR3 could utilize triolein instead of oleic acid as a substrate for the production of DOD (Appl. Microbiol. Biotechnol. 2007, 74: 301–306). In this study, we focused on utilization of vegetable oil as a substrate for DOD production by PR3. Consequently, strain PR3 efficiently utilized high oleic safflower oil as a substrate for DOD production. Optimal initial medium pH and incubation time were pH 8.0 and 72 h, respectively. Optimal carbon and nitrogen sources were fructose and glutamine, respectively. Results from this study demonstrate that normal vegetable oils could be used as efficient substrates for the production of value-added HFAs by microbial bioconversion.     

Identification of Rictor as a Novel Substrate of Polo-like kinase 1

Plk1 has been essentially described as a critical regulator of many mitotic events. However, increasing evidence supports the notion that its molecular functions are not restricted to the cell cycle. In particular, recent reports suggest the existence of a molecular and functional link between Plk1 and the mammalian target of rapamycin (mTOR) pathway, which controls cell growth and proliferation via the raptor-mTOR (TORC1) and rictor-mTOR (TORC2) protein complexes. Herein, we have identified rapamycin-insensitive companion of mTOR (Rictor), a core component of mTORC2, as a new Plk1 substrate and have shown that Plk1 phosphorylates Rictor at Ser1162 in vitro and in vivo. Surprisingly, cells expressing the unphosphorylatable mutant (S1162A) of Rictor did not show any effect on well characterized canonical PI3K-mTOR pathway. However, we found that cells expressing the unphosphorylatable form of Rictor have an elevated level of mSin1 isoform (mSin1.5). Considering that mSin1.5-containing mTORC2 was reported to associate with stress signaling, we propose that phosphorylation of Rictor at Ser1162 by Plk1 might be involved in a novel signaling pathway by regulating the mSin1.5-defined mTORC2.     

The Roles of p38 MAPK/MSK1 Signaling Pathway in the Neuroprotection of Hypoxic Postconditioning Against Transient Global Cerebral Ischemia in Adult Rats

Postconditioning has regenerated interest as a mechanical intervention against cerebral ischemia/reperfusion injury, but its molecular mechanisms remain unknown. We previously reported that hypoxic postconditioning (HPC) ameliorated neuronal death induced by transient global cerebral ischemia (tGCI) in hippocampal CA1 subregion of adult rats. This study tested the hypothesis that p38-mitogen-activated protein kinase (p38 MAPK)/mitogen- and stress-response kinase 1 (MSK1) signaling pathway plays a role in the HPC-induced neuroprotection. Male Wistar rats were subjected to 10 min ischemia induced by applying the four-vessel occlusion method. HPC with 120 min was applied at 24 h after reperfusion. Immunohistochemistry and Western blot were used to detect the expression of phosphorylation of p38 MAPK and MSK1, as well as cleaved caspase-3. We found that HPC induced a significant increase of phosphorylated p38 MAPK and MSK1 in neurons of hippocampal CA1 region and a significant decrease in glial cells after tGCI as well. Furthermore, HPC attenuated caspase-3 cleavation triggered by tGCI in CA1 region. Moreover, p38 MAPK inhibition by SB203580 significantly decreased the phosphorylation of MSK1, increased cleaved caspase-3 expression, and abolished the neuroprotection of HPC. These findings suggested that p38 MAPK/MSK1 signaling axis contributed to HPC-mediated neuroprotection against tGCI, at least in part, by regulating the activation of caspase-3.     

Effects of extreme temperature on seedling establishment of nonnative invasive plants

Climate change and plant invasion are two of the most important ecological issues facing the world today. Extreme events are likely to play an important role in plant invasion. For example, tolerance to temperature stress is critical for plant germination and survival of seedlings. Nonnative invasive species tend to differ from co-occurring native species in several traits. Increased mean temperatures are known to enhance the risk of plant invasions, but few experimental studies have linked plant invasion to both increasing mean temperature and extreme (low and high) temperatures. Ten plant species from Asteraceae (six nonnative invasive and four native species) were chosen and six temperatures (extremely low, average winter, average annual, average summer, high and extremely high) were used to test the effects of extreme temperatures on plant invasion in southern China. The results showed that nonnative invasive plant species (IS) germinated more readily and the seedlings grew better than those of native plant species (NS) at high temperatures, suggesting that global warming may facilitate invasion. Extreme temperatures decreased the seed germination rate and seedling growth of both IS and NS, although NS were more tolerant of extremely low temperatures (5/0 °C). IS, in turn, were more tolerant of extremely high temperatures (40/35 °C). Extreme high temperatures may increase the risk of plant invasion because IS seedlings are better able to become established, whereas low temperatures may hinder invasion. In addition, the species-specific differences in plant origin (IS and NS) and temperature tolerance were correlated with other climatic factors and should be considered in managing invasive species in a changing world.     

VKORC1 rs2359612C allele is associated with increased risk of coronary artery disease in the presence of coronary calcification

VKORC1 genetic polymorphisms affect warfarin dose response, aortic calcification, and the susceptibility of coronary artery disease as shown in our previous study. Little is known regarding the association of VKORC1 polymorphisms with coronary artery calcification (CAC) and the role of CAC in the association with coronary artery disease (CAD). Due to a natural haplotype block in the VKORC1 gene in Chinese, polymorphism rs2359612 was analyzed in a case–control study and a prospective study. The case–control study included 464 CAD patients with non-calcified plaque (NCP), 562 CAD patients with mixed calcified plaque (MCP), 492 subjects with calcified plaque (CP), and 521 controls. The rs2359612C was only associated with increased risk of MCP, the CAD in the presence of CAC; the odds ratio was 1.397 (95 % CI 1.008–1.937, P < 0.05), which was replicated in the second independent population. On the contrary, a negative correlation was observed between rs2359612 and log-transformed Agatston score, and rs2359612 was negatively associated with the number of calcified vessels. Moreover, in a prospective study including 849 CAD patients undergoing revascularization, rs2359612C predicted a higher incidence of cardiovascular events in MCP subgroup; the relative risk was 1.435 (95 % CI 1.008–2.041, P = 0.045), which was not observed in the NCP subgroup. We conclude that the rs2359612C was associated with a higher risk of CAD in the presence of CAC and a higher incidence of cardiovascular events in CAD patients with CAC, but a lower coronary calcification. VKORC1 polymorphisms may be associated with the endophenotype of CAD, calcification-related atherosclerosis.     

Molecular characterization of two deletion events involving Alu-sequences, one novel base substitution and two tentative hotspot mutations in the hypoxanthine phosphoribosyltransferase (HPRT) gene in five patients with Lesch-Nyhan syndrome

Mutations identified in the hypoxanthine phosphoribosyltransferase (HPRT) gene of patients with Lesch-Nyhan (LN) syndrome are dominated by simple base substitutions. Few hotspot positions have been identified, and only three large genomic rearrangements have been characterized at the molecular level. We have identified one novel mutation, two tentative hot spot mutations, and two deletions by direct sequencing of HPRT cDNA or genomic DNA from fibroblasts or T-lymphocytes from LN patients in five unrelated families. One is a missense mutation caused by a 610C→T transition of the first base of HPRT exon 9. This mutation has not been described previously in an LN patient. A nonsense mutation caused by a 508C→T transition at a CpG site in HPRT exon 7 in the second patient and his younger brother is the fifth mutation of this kind among LN patients. Another tentative hotspot mutation in the third patient, a frame shift caused by a G nucleotide insertion in a monotonous repeat of six Gs in HPRT exon 3, has been reported previously in three other LN patients. The fourth patient had a tandem deletion: a 57-bp deletion in an internally repeated Alu-sequence of intron 1 was separated by 14 bp from a 627-bp deletion that included HPRT exon 2 and was flanked by a 4-bp repeat. This complex mutation is probably caused by a combination of homologous recombination and replication slippage. Another large genomic deletion of 2969 bp in the fifth patient extended from one Alu-sequence in the promoter region to another Alu-sequence of intron 1, deleting the whole of HPRT exon 1. The breakpoints were located within two 39-bp homologous sequences, one of which overlapped with a well-conserved 26-bp Alu-core sequence previously suggested as promoting recombination. These results contribute to the establishment of a molecular spectrum of LN mutations, support previous data indicating possible mutational hotspots, and provide evidence for the involvement of Alu-mediated recombination in HPRT deletion mutagenesis. Received: 21 April 1998 / Accepted: 16 July 1998     

Protective role of curcumin in ameliorating AFB1-induced apoptosis via mitochondrial pathway in liver cells

It is well documented that liver is the primary target organ of aflatoxin B₁ (AFB₁) and curcumin proved to be effective against AFB₁-induced liver injury. In the present study, we investigated the preventive effects of curcumin against AFB₁-induced apoptosis through the molecular regulation of p53, caspase-3, Bax, caspase-9, Bcl-2 and cytochrome-C associated with mitochondrial pathway. Liver antioxidant levels were measured. The hallmarks of apoptosis were analysed by methyl green-pyronin-Y staining, transmission electron microscopy, RT-PCR and western blot. Results revealed that dietary curcumin ameliorated AFB₁-induced oxidative stress in a dose-dependent manner. Methyl green-pyronin-Y staining and transmission electron microscopy showed that AFB₁ induced apoptosis and caused abnormal changes in liver cells morphology such as condensation of chromatin material, reduces cell volume and damaged mitochondria. Moreover, mRNA and protein expression results manifested that apoptosis associated genes showed up-regulation in AFB₁ fed group. However, the supplementation of dietary curcumin (dose-dependently) alleviated the increased expression of the apoptosis associated genes at mRNA and protein level, and restored the hepatocytes normal morphology. The study provides an insight and a better understanding of the preventive mechanism of curcumin against AFB₁-induced apoptosis in hepatocytes and provide scientific basis for the therapeutic uses of curcumin.