普洱茶中功能性微生物的筛选及其对普洱茶感官品质的影响

普洱茶的渥堆发酵过程是以晒青毛茶的内含成分为基础,在微生物分泌的胞外酶及湿热作用下,发生一系列化学变化,最终形成普洱茶独特的风味。采用稀释涂布法,根据产酶微生物的特性,经过固体平板初筛和液体茶汤培养基复筛,从普洱茶中分离得到若干株产酶菌株,并从中挑选优良菌株接种普洱茶固体发酵,考察其对普洱茶感官品质的影响。经分子生物学鉴定,D13-16为米曲霉(Aspergillus oryzae),相似度为98.62%;GJ-02为米根霉(Rhizopus cryzae),相似度为98.57%;XW-10和DF-03均为黑曲霉(Aspergillus niger),相似度分别为99.10%和99.92%。结果表明:普洱茶香气的形成主要与蛋白酶产生菌有关,DB-16发酵后香气评分达到31分(对照28,总分40);汤色主要受多酚氧化酶产生菌的影响,DF-03发酵后汤色评分达到19分(对照12,总分20);而这四种功能性微生物均在不同程度上促进了普洱茶滋味的形成。     

Anticorrosion mechanism of Cr-doped nickel-base alloy in Br/O environment: a DFT study

ABSTRACT

Density functional theory was used to investigate the anticorrosion mechanism of Cr-doped nickel-base alloy in Br/O environment. The adsorption properties including adsorption energy, bond length and electron structure of Br/O on Ni and Cr-doped Ni surfaces have been investigated. We find that the O atom has bigger adsorption activity than the Br atom. The oxide film can be preferentially formed on the Cr-doped nickel-base alloy surface under the coexistence of Br and O atoms. By exploring the interactions between Br and NiO (111) or Cr₂O₃ (100) surfaces, we demonstrate that oxide films could prevent Br from erosion. Results indicate that Cr₂O₃ has stronger corrosion resistance than NiO. The corrosion resistance mechanism of Cr-doped nickel-base alloy is summarised into two processes, i.e. competitive adsorption and adsorption inhibition.     

Abscisic acid enhances tolerance to spring freeze stress and regulates the expression of ascorbate–glutathione biosynthesis-related genes and stress-responsive genes in common wheat

Molecular Breeding - Hybrid sterility is a major obstacle to the development of superior inter-subspecific hybrids between indica and japonica subspecies of Asian-cultivated rice. To overcome...     

Aminoglucose-functionalized,redox-responsive polymer nanomicelles for overcoming chemoresistance in lung cancer cells

Background

Chemotherapeutic drugs used for cancer therapy frequently encounter multiple-drug resistance (MDR). Nanoscale carriers that can target tumors to accumulate and release drugs intracellularly have the greatest potential for overcoming MDR. Glucose transporter-1 (GLUT-1) and glutathione (GSH) overexpression in cancer cells was exploited to assemble aminoglucose (AG)-conjugated, redox-responsive nanomicelles from a single disulfide bond-bridged block polymer of polyethylene glycol and polylactic acid (AG-PEG-SS-PLA). However, whether this dual functional vector can overcome MDR in lung cancer is unknown.

Results

In this experiment, AG-PEG-SS-PLA was synthetized successfully, and paclitaxel (PTX)-loaded AG-PEG-SS-PLA (AG-PEG-SS-PLA/PTX) nanomicelles exhibited excellent physical properties. These nanomicelles show enhanced tumor targeting as well as drug accumulation and retention in MDR cancer cells. Caveolin-dependent endocytosis is mainly responsible for nanomicelle internalization. After internalization, the disulfide bond of AG-PEG-SS-PLA is cleaved in the presence of high intracellular glutathione levels, causing the hydrophobic core to become a polar aqueous solution, which subsequently results in nanomicelle disassembly and the rapid release of encapsulated PTX. Reduced drug resistance was observed in cancer cells in vitro. The caspase-9 and caspase-3 cascade was activated by the AG-PEG-SS-PLA/PTX nanomicelles through upregulation of the pro-apoptotic proteins Bax and Bid and suppression of the anti-apoptotic protein Bcl-2, thereby increasing apoptosis. Furthermore, significantly enhanced tumor growth inhibition was observed in nude mice bearing A549/ADR xenograft tumors after the administration of AG-PEG-SS-PLA/PTX nanomicelles via tail injection.

Conclusions

These promising results indicate that AG-PEG-SS-PLA/PTX nanomicelles could provide the foundation for a paradigm shift in MDR cancer therapy.

     

Overexpression of Annexin A2 promotes proliferation by forming a Glypican 1/c-Myc positive feedback loop: prognostic significance in human glioma

In order to set up a reliable prediction system for the tumor grade and prognosis in glioma patients, we clarify the complicated crosstalk of Annexin A2 (ANXA2) with Glypican 1 (GPC1) and demonstrate whether combined indexes of ANXA2 and GPC1 could improve the prognostic evaluation for glioma patients. We found that ANXA2-induced glioma cell proliferation in a c-Myc-dependent manner. ANXA2 increased the expression of GPC1 via c-Myc and the upregulated GPC1 further promoted the c-Myc level, forming a positive feedback loop, which eventually led to enhanced proliferation of glioma cells. Both mRNA and protein levels of ANXA2 were upregulated in glioma tissues and coincided with the overexpression of GPC1. Besides, we utilized tissue microarrays (TMAs) and immunohistochemistry to demonstrate that glioma patients with both high expression of ANXA2 and GPC1 tended to have higher rate of tumor recurrence and shorter overall survival (OS). In conclusion, the overexpression of ANXA2 promotes proliferation of glioma cells by forming a GPC1/c-Myc positive feedback loop, and ANXA2 together with its downstream target GPC1 could be a potential “combination biomarker” for predicting prognosis of glioma patients.Subject terms: CNS cancer, Prognostic markers