Over-expression of Ultrabithorax alters embryonic body plan and wing patterns in the butterfly Bicyclus anynana

In insects, forewings and hindwings usually have different shapes, sizes, and color patterns. A variety of RNAi experiments across insect species have shown that the hox gene Ultrabithorax (Ubx) is necessary to promote hindwing identity. However, it remains unclear whether Ubx is sufficient to confer hindwing fate to forewings across insects. Here, we address this question by over-expressing Ubx in the butterfly Bicyclus anynana using a heat-shock promoter. Ubx whole-body over-expression during embryonic and larvae development led to body plan changes in larvae but to mere quantitative changes to adult morphology, respectively. Embryonic heat-shocks led to fused segments, loss of thoracic and abdominal limbs, and transformation of head limbs to larger appendages. Larval heat-shocks led to reduced eyespot size in the expected homeotic direction, but neither additional eyespots nor wing shape changes were observed in forewings as expected of a homeotic transformation. Interestingly, Ubx was found to be expressed in a novel, non-characteristic domain – in the hindwing eyespot centers. Furthermore, ectopic expression of Ubx on the pupal wing activated the eyespot-associated genes spalt and Distal-less, known to be directly repressed by Ubx in the fly?s haltere and leg primordia, respectively, and led to the differentiation of black wing scales. These results suggest that Ubx has been co-opted into a novel eyespot gene regulatory network, and that it is capable of activating black pigmentation in butterflies.     

Lipase catalytic synthesis of diacylglycerol from tuna oil and its anti-obesity effect in C57BL/6J mice

Diacylglycerol (DAG) production by glycerolysis of glycerol with tuna oil was performed using lipases from Rhizomucor miehei (Lipozyme RMIM) and Candida antarctica (Novozyme 435). Lipozyme RMIM caused a clear estrific positional specificity in HPLC analysis and then the Lipozyme RMIM was chosen for the production of DAG. Moreover, the reaction parameter for DAG synthesis was determined by measuring mole ratio of glycerol/tuna oil, amount of enzyme, temperature and water contents. The optimal mole ratio for glycerol/tuna oil was established to be 3:1. Optimal conditions of lipase, water and temperature were 10%, 10% and 35 °C, respectively. Therefore, we have synthesized DAG from tuna oil under these optimal conditions and investigated the effect of the synthesized DAG on body weight and plasma biochemical markers of obesity in C57BL/6J mice. The consumption of DAG diet has effectively lessened body weight gain and final plasma total cholesterol, triacylglycerol and glucose levels compared to the high triacylglycerol (TAG) group.     

Ficin-catalyzed asymmetric aldol reactions of heterocyclic ketones with aldehydes

Ficin from fig tree latex displayed a promiscuous activity to catalyze the direct asymmetric aldol reactions of heterocyclic ketones with aromatic aldehydes. Ficin showed good substrate adaptability to different heterocyclic ketones containing nitrogen, oxygen or sulfur. The enantioselectivities up to 81% ee and diastereoselectivities up to 86:14 (anti/syn) were achieved under the optimized reaction conditions.     

Panax quinquefolium saponins protect against cisplatin evoked intestinal injury via ROS-mediated multiple mechanisms

BackgroundCisplatin is one of the most common chemotherapeutic drugs. Cisplatin-induced toxicity gives rise to gastrointestinal cell damage, subsequent diarrhea and vomiting, leading to the discontinuation of its clinical application in long-term cancer chemotherapy. Panax quinquefolium L., also known as American ginseng, has many pharmacological activities such as improving immunity, anti-tumor, anti-radiation and blood sugar lowering.PurposePreviously, our laboratory reported that American ginseng berry extract could alleviate chemotherapeutic agents-induced renal damage caused by cisplatin. Hence, this study further explored the protective effect of P. quinquefolium saponins (PQS) on cisplatin-induced intestinal injury in mice and the possible molecular mechanisms.MethodsBiochemical markers, levels of inflammatory factors, histopathological staining and western blotting were used to analyze intestinal injury based on various molecular mechanisms.ResultsWe demonstrated the destruction of the intestinal barrier caused by cisplatin exposure by detecting the activity of diamine oxidase (DAO) and the expression of tight junction proteins zonula occludens-1 (ZO-1) and occludin. Meanwhile, cisplatin exposure changed SOD and MDA levels in the small intestine, causing oxidative damage to the intestinal mucosa. The inflammation associated-intestinal damage was further explored by the measurement of tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β) and analysis of nuclear factor-kappa B (NF-κB) inflammatory pathway protein expression. Moreover, apoptotic cells labeled with TUNEL staining-positive cells and activated caspase family proteins suggest that cisplatin induces intestinal apoptosis. Interestingly, PQS pretreatment significantly reversed these situations.ConclusionThese evidences clearly suggest that PQS can alleviate cisplatin-induced intestinal damage by inhibiting oxidative stress, reducing the occurrence of inflammation and apoptosis, and improving intestinal barrier function.     

喀斯特地区农村劳动力转移对生态恢复的影响及其区域差异——基于酉阳和沿河的农户调查数据

喀斯特地区的生态恢复对于促进国土空间的生态修复、实现区域生态安全具有重要意义。基于酉阳县和沿河县的383份农户调查数据，从微观的农户尺度运用Tobit模型分析喀斯特地区农村劳动力转移对生态恢复的影响，并关注其对酉阳县和沿河县生态恢复的影响差异。研究结果表明：①研究区劳动力转移现象明显，47.67%的农村劳动力发生了转移；②研究区生态恢复情况总体较好，酉阳县的生态恢复好于沿河县；③农村劳动力转移通过农业劳动力的流失效应和非农收入的替代效应促进了喀斯特地区的生态恢复；④劳动力转移的程度不同，对生态恢复的作用强度也不同。沿河相对滞后的劳动力转移程度，使得其生态恢复稍弱于酉阳。为促进喀斯特地区生态恢复，政府应有序引导农村劳动力向非农就业转移，提高转移农户的非农化程度。     

Efficient chemoenzymatic synthesis of (S)-α-amino-4-fluorobenzeneacetic acid using immobilized penicillin amidase

An efficient chemoenzymatic route was developed for synthesis of (S)-α-amino-4-fluorobenzeneacetic acid, a valuable chiral intermediate of Aprepitant, using immobilized penicillin amidase catalyzed kinetic resolution of racemic N-phenylacetyl-4-fluorophenylglycine. The optimum temperature, pH and agitation rate of the reaction were determined to be 40 °C, 9.5 and 300 rpm, respectively. Kinetic resolution of 80 g L⁻¹ N-phenylacetyl-4-fluorophenylglycine by immobilized amidase 20 g L⁻¹ resulted in 49.9% conversion and >99.9% e.e. within 3 h. The unreacted N-phenylacetyl-4-fluorophenylglycine can be easily racemized and then recycled as substrate. The production of (S)-α-amino-4-fluorobenzeneacetic acid was further amplified in 1 L reaction system, affording excellent conversion (49.9%) and enantioselectivity (99.9%). This chemoenzymatic approach was demonstrated to be promising for industrial production of (S)-α-amino-4-fluorobenzeneacetic acid.     

Acute brain vascular regeneration occurs via lymphatic transdifferentiation

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Precursor engineering and cell physiological regulation for high level rapamycin production by Streptomyces hygroscopicus

A process for high level production of rapamycin by Streptomyces hygroscopicus using statistical designs and feeding strategy was developed. The amino acids (i.e. Lys, Tyr, and Gln) for precursor supply were screened out in the initial phase of fermentation. The optimum levels determined with Box-Behnken design were Lys 20, Tyr 4, and Gln 3 g/l. In the rapamycin biosynthesis phase, the important component, ammonium sulphate, was also identified. A novel two-stage feeding strategy was developed successfully to increase the flux of rapamycin biosynthesis, in which the optimized amino acid components were fed in the initial phase of fermentation, and then switched to feed 2 g/l ammonium sulphate at 72 h. The maximal rapamycin production reached 860.6 mg/l in a 7 l fermentor, which was 182 % higher than that of the control. This was the first report to integrate precursor engineering and cell physiological regulation methods to optimize rapamycin production.