Acetyl-CoA carboxylase inhibitors in non-alcoholic steatohepatitis: Is there a benefit?

De novo lipogenesis(DNL)plays an important role in the pathogenesis of hepatic steatosis and also appears to be implicated in hepatic inflammation and fibrosis.Accordingly,the inhibition of acetyl-CoA carboxylase,which catalyzes the ratelimiting step of DNL,might represent a useful approach in the management of patients with nonalcoholic fatty liver disease(NAFLD).Animal studies and preliminary data in patients with NAFLD consistently showed an improvement in steatosis with the use of these agents.However,effects on fibrosis were variable and an increase in plasma triglyceride levels was observed.Therefore,more longterm studies are needed to clarify the role of these agents in NAFLD and to determine their risk/benefit profile.

Cloning, Expression and Purification of Wheat Acetyl-CoA Carboxylases CT Domain in E. coil

The entire gene of carboxyltransferase（CT） domain of acetyl-CoA carboxylase（ACCase） from Chinese Spring wheat（CSW） plastid was cloned firstly, and the 2.3 kb gene was inserted into PET28a^＋ vector and expressed in E. coil in a soluble state. The （His）6 fusion protein was identified by SDS-PAGE and Western blot. The recombinant protein was purified by affinity chromatography, and the calculated molecular mass（Mr） was 88000. The results of the sequence analysis indicate that the cloned gene（GeneBank accession No. EU124675） was a supplement and revision of the reported ACCase CT partial cDNA from Chinese Spring wheat plastid. The recombinant protein will be significant for us to investigate the recognizing mechanism between ACCase and herbicides, and further to screen new herbicides.

Identification and Expression Analysis of the Phosphoenolpyruvate Carboxylase Gene Family in Peanut (Arachis hypogaea L.)

Phosphoenolpyruvate carboxylase （PEPC） is widely distributed in plants and bacteria, and catalyzes the carboxylation of phosphoenolpyruvate to form oxaloacetate and inorganic phosphate. To investigate the molecular mechanisms of the regulation and control of peanut oil, with the degenerated primers and RACE-PCR approach, five PEPC genes were cloned from peanut, and designated as AhPEPC1, AhPEPC2, AhPEPC3, AhPEPC4, and AhPEPC5, respectively. The structure and phylogenetic analysis of PEPC protein indicated that AhPEPC1-4 genes encoded a typical plant-type PEPC-enzyme, and AhPEPC5 a bacterial-type. By real-time quantitative RT-PCR approach the expression pattern of each gene was detected in various tissues of normal and high oil-content peanut varieties. It was found that there was a lower expression level of AhPEPCs genes except for the AhPEPC2 in high-oil peanut than normal-oil peanut line. The results provide some fundamental information for the further investigation of plant PEPC proteins and their role in regulation of oil-content in peanut seeds.

Functional Analysis of the Phosphoenolpyruvate Carboxylase on the Lipid Accumulation of Peanut(Arachis hypogaea L.) Seeds

Phosphoenolpyruvate carboxylase（PEPC;EC 4.1.1.31） catalyses phosphoenolpyruvate（PEP） to yield oxaloacetate,which is involved in protein biosynthesis.Pyruvate kinase（PK;EC 2.7.1.40） catalyzes PEP to yield pyruvate,which is involved in fatty acid synthesis.In this study,five PEPC genes（AhPEPC1,AhPEPC2,AhPEPC3,AhPEPC4,and AhPEPC5） from peanut have been cloned.Using a quantitative real-time RT-PCR approach,the expression pattern of each gene was monitored during the seed development of four peanut varieties（E11,Hebeigaoyou,Naihan 1,and Huayu 26）.It was found that these five genes shared similar expression behaviors over the developmental stages of E11 with high expression levels at 30 and 40 d after pegging（DAP）;whereas these five genes showed irregular expression patterns during the seed development of Hebeigaoyou.In Naihan 1 and Huayu 26,the expression levels of the five genes remained relatively high in the first stage.The PEPC activity was monitored during the seed development of four peanut varieties and seed oil content was also characterized during whole period of seed development.The PEPC activity followed the oil accumulation pattern during the early stages of development but they showed a significantly negative correlation thereafter.These results suggested that PEPC may play an important role in lipid accumulation during the seed development of four peanut varieties tested.

Photosynthetic Characteristics and Heterosis in Transgenic Hybrid Rice with Maize Phosphoenolpyruvate Carboxylase (pepc) Gene

Three F3 hybrids derived from the sterile rice lines Gang 46A, 776A and 2480A and the improved restorer line Shuhui 881 containing maize phosphoenolpyruvate carboxylase （pepc） gene were used to analyze the effect of pepc gene on the heterosis and photosynthetic characteristics, while the F3 obtained by crossing Shuhui 881 with the above three sterile lines served as controls. The dynamics of photosynthetic characteristics in leaves of three F1 with pepc gene and their controls were determined at the initial-tillering, maxium-tillering, elongation, initial-heading, heading, maturity stages, and other different times after flag leaf fully expanded. The PEPCase activities of the three F1 with pepc gene increased significantly as compared with control plants during the whole developmental stages. Moreover, the net photosynthesis rate （Pn） also increased to certain extent. The data showed that PEPCase activity was significantly correlated to Pn with a correlation coefficient of 0.6081. The photosynthetic indexes of the three F1 with pepc gene were obviously superior to respective controls in apparent quantum efficiency, light compensation point and carboxylation efficiency, while the CO2 compensation point was lower than that of corresponding control. The Pn of the three F1 with pepc gene at light saturation point and CO2 saturation point was also higher than that of control plants. in addition, the three F1 with pepc gene had an average increase of 37.10% in grain yields per plant in comparison with control plants. The results indicated that the photosynthetic characteristics of hybrid rice containing pepc gene had been improved to some extent due to the introduction of pepc gene.

Genetic Mutation of Vitamin K-dependent Gamma-glutamyl Carboxylase Domain in Patients with Calcium Oxalate Urolithiasis

To investigate the exon mutation of vitamin K-dependent gamma-glutamyl carboxylase （GGCX or VKDC） in patients with calcium oxalate urolithasis, renal cortex and peripheral blood samples were obtained from severe hydronephrosis patients （with or without calculi）, and renal tumor patients undergoing nephrectomy. GGCX mutations in all 15 exons were examined in 44 patients with calcium oxalate urolithiasis （COU） by polymerase chain reaction （PCR） and denatured high pressure liquid chromatography （DHPLC）, and confirmed by sequencing. Mutation was not found in all COU samples compared to the controls. These data demonstrated that functional GGCX mutations in all 15 exons do not occur in most COU patients. It was suggested that there may be no significant association between the low activity and mutation of GGCX in COU.

Characterization of ribulose-1,5-bisphosphate carboxylase/oxygenase and transcriptional analysis of its related genes in Saccharina japonica(Laminariales,Phaeophyta)

Saccharina japonica is a common macroalga in sublittoral communities of cold seawater environments,and consequently may have highly effi cient ribulose-1,5-bisphosphate carboxylase/oxygenase(Rubisco)activity for carbon assimilation.In our study,we cloned the full-length Rubisco gene from S.japonica(SJ-rbc).It contained an open reading frame for a large subunit gene(SJ-rbcL)of 1 467 bp,a small subunit gene(SJ-rbcS)of 420 bp,and a SJ-rbcL /S intergenic spacer of 269 bp.The deduced peptides of SJ-rbcL and SJ-rbcS were 488 and 139 amino acids with theoretical molecular weights and isoelectric points of 53.97 kDa,5.81 and 15.84 kDa,4.71,respectively.After induction with 1 mmol/L isopropyl-β-Dthiogalactopyranoside for 5 h and purifi cation by Ni 2+ affi nity chromatography,electrophoresis and western blot detection demonstrated successful expression of the 55 kDa SJ-rbcL protein.Real-time quantitative PCR showed that the mRNA levels of SJ-rbcL in gametophytes increased when transferred into normal growth conditions and exhibited diurnal variations: increased expression during the day but suppressed expression at night.This observation implied that Rubisco played a role in normal gametophytic growth and development.In juvenile sporophytes,mRNA levels of SJ-rbcL,carbonic anhydrase,Calvin-BensonBassham cycle-related enzyme,and chloroplast light-harvesting protein were remarkably increased under continuous light irradiance.Similarly,expression of these genes was up-regulated under blue light irradiance at 350 μmol/(m 2·s).Our results indicate that long-term white light and short-term blue light irradiance enhances juvenile sporophytic growth by synergistic effects of various photosynthetic elements.

Concomitant Increases of the Developing Seed Phosph<i>oenol</i>pyruvate Carboxylase Ac-tivity and the Seed Protein Content of Field-Grown Wheat with Nitrogen Supply

Wheat seed storage protein is of great importance for human food. To increase the contents of storage proteins effectively, nitrogen fertilizer at flowering stages is commonly applied. In our previous study, rice phosphoenolpyruvate carboxylase (PEPCase) activity in developing seeds was observed in response to nitrogen application at a flowering stage and was positively correlated to the response of the protein content in seeds of six cultivars. This observation might indicate that the seeds have a biological system for accepting nitrogen in seeds by using PEPCase. To test whether this physiological event occurs in wheat, we examined the PEPCase activity and protein content in field-grown wheat seeds under different nitrogen supply conditions. With only basal dressing, seeds showed lower PEPCase activity and protein content (both 0.90-fold) compared to seeds without basal fertilizer. With ammonium sulfate application at 8.3 and 25 g/m2 at a flowering stage, seeds showed higher PEPCase activity (1.08- and 1.17-fold, respectively) and protein content (1.15- and 1.42-fold, respectively), depending on the nitrogen level. We investigated the relationship between PEPCase activity and protein content in the seeds among four conditions. The effect of the nitrogen supply on PEPCase activity during grain-filling stages was validated by the results of a hydroponic culture experiment. Together the results demonstrate that our hypothesis seems to apply to field-grown wheat.

Differential effect of biotin on carboxylase activity and mice skeletal muscle metabolism

In mammalian skeletal muscle there are four carboxylases involved in several biochemical processes like gluconeogenesis, tricarboxylic acid cycle anaplerosis, metabolism of fatty acids and metabolism of various amino acids. It has been shown that biotin deficiency reduces body weight at the expense of muscular mass. When necessary, the liver uses skeletal muscle protein to provide glucose and amino acids to organs in need of such compounds. In this paper we analyzed carboxylase specific activities in hind limb skeletal muscle of 3 weeks old BALB/c male mice, at 0, 1, 4, 7, and 14 days of a specific diet with different biotin concentrations. Biotin was used at 0.0, 1.8 or 98.2 mg per kg of food;and was referred to as biotin deficient, sufficient and supplemented, respectively. Water and food supply and consumption by the three groups of mice were the same. Therefore, the observed effects were directly related to biotin ingestion. The body weight of biotin supplemented mice was the same as the body weight of mice in the biotin sufficient group, while biotin deficiency caused body weight reduction after 7 days of biotin depletion. We found that the total protein concentration in the vastus lateralis muscle is associated with the biotin content in the diet. After 7 days, the muscle total protein content was lower in mice of the biotin deficient group while it was higher in the mice from the biotin supplemented group

乙酰辅酶A羧化酶2通过调控细胞周期促进肝癌细胞增殖

目的:研究乙酰辅酶A羧化酶2(acetyl-co carboxylase 2,ACC2)对肝癌细胞增殖、迁移能力的影响以及其潜在的作用机制。方法:通过TCGA、GEO、CPTAC数据库对ACC2在肝癌(hepatocellular carcinoma,HCC)患者肝脏组织中的表达和预后价值进行分析。采用CRISPR-Cas9系统构建了ACC2敲低肝癌细胞系,观察肝癌细胞增殖、迁移能力以及细胞周期的变化,Western blot实验检测细胞周期相关蛋白的表达。结果:ACC2在肝癌组织中低表达(P<0.05)且与预后不良相关(P<0.05)。体外细胞功能学实验表明降低ACC2表达显著促进肝癌细胞增殖、迁移能力(P<0.05)。细胞周期流式分析显示敲低ACC2促进肝癌细胞周期G1/S期的转变(P<0.05),细胞周期相关蛋白中CyclinE2和p21的表达降低,而CyclinA2和p-RB的表达升高。结论:ACC2可以促进肝癌细胞增殖和迁移的能力,对细胞增殖的促进作用是通过加速肝癌细胞周期G1向S期的转化实现的。

敲低乙酰辅酶A羧化酶1对食管鳞状细胞癌KYSE450细胞迁移的影响及机制

目的探讨敲低乙酰辅酶A羧化酶1(ACC1)对食管鳞状细胞癌KYSE450细胞迁移能力的影响及机制。方法将对数生长期食管鳞状细胞癌KYSE450细胞随机分为shNC组、shACC1组、shNC+AEB071组及shACC1+AEB071组,shNC组KYSE450细胞转染空白质粒载体,shACC1组KYSE450细胞转染慢病毒质粒载体,shNC+AEB071组KYSE450细胞转染空白质粒载体后加入5μL浓度为2 mmoL·L^(-1)的蛋白激酶C抑制剂AEB071(终浓度为5μmoL·L^(-1)),shACC1+AEB071组KYSE450细胞转染慢病毒质粒载体后加入5μL浓度为2 mmoL·L^(-1)的蛋白激酶C抑制剂AEB071(终浓度为5μmoL·L^(-1))。Transwell法检测各组KYSE450细胞迁移能力;显微镜下观察各组KYSE450细胞形态学变化;Western blot检测4组KYSE450细胞中乙酰辅酶A羧化酶1(ACC1)、组蛋白H3(H3)、乙酰化的组蛋白H3第9赖氨酸(H3K9Ac)及上皮-间质转化(EMT)标志物β-连环蛋白(β-catenin)、波形蛋白(Vimentin)以及锌指转录因子(Snail)等的表达。结果shACC1组KYSE450细胞迁移数显著高于shNC组(P<0.05);shNC+AEB071组与shNC组KYSE450细胞迁移数比较差异无统计学意义(P>0.05);shACC1+AEB071组KYSE450细胞迁移数显著低于shACC1组(P<0.05)。shNC组KYSE450细胞呈椭圆形上皮样细胞形态,shACC1组KYSE450细胞呈类似于梭形的间质样细胞形态,shNC+AEB071组和shACC1+AEB071组KYSE450细胞呈椭圆形上皮样细胞形态。shACC1组KYSE450细胞中ACC1相对表达量显著低于shNC组(P<0.05),β-catenin、Vimentin、Snail的相对表达量及H3K9Ac/H3比值显著高于shNC组(P<0.05);shNC+AEB071组与shNC组KYSE450细胞中ACC1、β-catenin、Vimentin、Snail相对表达量及H3K9Ac/H3比值比较差异无统计学意义(P>0.05);shACC1+AEB071组KYSE450细胞中β-catenin、Vimentin、Snail的相对表达量及H3K9Ac/H3比值显著低于shACC1组(P<0.05);shACC1+AEB071组与shACC1组KYSE450细胞中ACC1相对表达量比较差异无统计学意义(P>0.05)。结论敲低ACC1可促进食管鳞状细胞癌KYSE450细胞的迁移,从而促进肿瘤的进展,其机制可能是通过蛋白激酶C相关信号通路介导的。

新型植物蛋白来源RuBisCO的研究进展

核酮糖-1,5-二磷酸羧化酶/加氧酶(ribulose-1,5-bisphosphate carboxylase/oxygenase,RuBisCO)是决定植物光合作用碳同化速率和光呼吸的关键酶,在C4植物(如玉米或高粱)中构成15%的叶可溶性蛋白质,在C3植物(如小麦、烟草、苜蓿)中占总氮的50%以上。RuBisCO的分子质量约为560 kDa,由8个大亚基和8个小亚基组成,形状近似空心球体或圆柱体,在一定条件下大小亚基可以发生解离。RuBisCO的提取和纯化工艺主要受到多酚、叶绿素、纤维和多糖等物质的影响,目前的提取方法存在成本高、效率低、工艺复杂等问题,应当严格把控原材料的品质,开拓经济性和质量兼具的提取和纯化方法,并且考虑附加子产品开发。在理化性质方面,RuBisCO具有出色的溶解性、乳化性、起泡性和可在低浓度下形成脆性凝胶的特性,极具应用潜力。在营养与功能特性方面,RuBisCO富含必需氨基酸,其衍生的多肽在体外已被证实具有促进健康的功能。本文对RuBisCO的来源、结构、提取工艺、理化特性、营养及功能特性进行了综述,提出了未来的研究方向,并展望了其应用前景。

中、高海拔雄性小鼠肝脏ACC1、CPT1A的变化及其对糖脂代谢的影响

目的探讨中、高海拔雄性小鼠肝脏ACC1、CPT1A的变化及其对糖脂代谢的影响。方法将雄性小鼠随机分为中海拔组(M组)和高海拔组(H组),再根据饲养天数分别分为第3d组、第7d组、第30d组,每组10只。分别在第3 d、第7 d、第30 d脱颈处死小鼠取血清测定胰岛素,并取适量肝脏组织用PCR、WB法测定CPT1A信使核糖核酸及蛋白水平、ACC1信使核糖核酸及蛋白水平。结果1)M组空腹血糖及空腹胰岛素水平在一定时间范围内随着时间延长逐渐升高,但H组空腹血糖及空腹胰岛素水平逐渐降低,且低于同时期的M组水平(P<0.05)。2)M组CPT1A信使核糖核酸水平随时间延长而逐渐降低,但H组随着时间延长无明显变化,且低于同时期的M组水平(P<0.05),第30d M组与第30d H组无差异;ACC1信使核糖核酸在M组随着时间延长逐渐升高、在H组随着时间延长逐渐降低,第3d M组明显低于H组。CPT1A蛋白水平在M组随着时间延长逐渐降低,在H组随着时间延长逐渐降低,且低于同时期的M组(P<0.05);ACC1蛋白水平在M组随着时间延长逐渐升高、在H组随时间延长逐渐降低(P<0.05)。3)CPT1A信使核糖核酸及蛋白水平与空腹胰岛素水平、胰岛素抵抗水平、胰岛素分泌指数水平正相关(P<0.05);ACC1信使核糖核酸水平与空腹胰岛素水平、胰岛素抵抗水平、胰岛素分泌指数水平负相关(P<0.05),ACC1蛋白水平与空腹血糖水平正相关、与胰岛素分泌指数水平负相关(P<0.05)。结论1)中海拔可降低雄性小鼠肝脏ACC1信使核糖核酸及蛋白水平,可升高CPT1A信使核糖核酸及蛋白水平;高海拔可增加雄性小鼠肝脏ACC1信使核糖核酸及蛋白水平、降低CPT1A信使核糖核酸及蛋白水平。2)雄性小鼠在高海拔急性低氧环境下的糖代谢和肝脏脂肪酸合成代谢增加;随低氧时间延长,糖代谢逐渐转换为脂肪酸合成代谢,表现为血糖降低、肝脏脂肪酸降低,分解代谢增强。

Acetyl coenzyme A carboxylase modulates lipogenesis and sugar homeostasis in Blattella germanica

Lipid and sugar homeostasis is critical for insect development and survival.In this study,we characterized an acetyl coenzyme A carboxylase gene in Blattella germanica(BgACC)that is involved in both lipogenesis and sugar homeostasis.We found that BgACC was dominantly expressed in the fat body and integument,and was significantly upregulated after molting.Knockdown of BgACC in 5th-instar nymphs did not affect their normal molting to the next nymphal stage,but it caused a lethal phenotype during adult emergence.BgACC-RNA interference(RNAi)significantly downregulated total free fatty acid(FFA)and triacylglycerol(TAG)levels,and also caused a significant decrease of cuticular hydrocarbons(CHCs).Repression of BgACC in adult females affected the development of oocytes and resulted in sterile females,but BgACC-RNAi did not affect the reproductive ability of males.Interestingly,knockdown of BgACC also changed the expression of insulin-like peptide genes(BglLPs),which mimicked a physiological state of high sugar uptake.In addition,BgACC was upregulated when B.germanica were fed on a high sucrose diet,and repression of BgACC upregulated the expression of the glycogen synthase gene(BgGlyS).Moreover,BgACC-RNAi increased the circulating sugar levels and glycogen storage,and a longevity assay suggested that BgACC was important for the survival of B.germanica under conditions of high sucrose uptake.Our results confirm that BgACC is involved in multiple lipid biogenesis and sugar homeostasis processes,which further modulates insect reproduction and sugar tolerance.This study benefits our understanding of the crosstalk between lipid and sugar metabolism.

The Ca^(2+)/CaN/ACC and cAMP/PKA/HK signal pathways are required for PBAN-mediated sex pheromone biosynthesis in Conogethes punctiferalis

Conogethes punctiferalis is a crop and fruit pest that has caused serious economic losses to agricultural production.This pest relies heavily on its sex pheromone to ensure sexual encounters and subsequent mating success.However,the molecular mechanism underlying sex pheromone biosynthesis in this species remains elusive.The present study investigated the detailed mechanism underlying PBAN-regulated sex pheromone biosynthesis in C.punctiferalis by transcriptome sequencing of the C.punctiferalis pheromone glands(PGs)and subsequent functional identification of the target genes.The results showed that female mating started from the first scotophase,and peaked at the second to fifth scotophases in accordance with the release of sex pheromones.PBAN regulated sex pheromone biosynthesis by employing Ca^(2+)and cAMP as secondary messengers,as demonstrated by RNA interference(RNAi),pharmacological inhibitors,and behavioral assays.Further investigation revealed that calcineurin(CaN)and acetyl-CoA carboxylase(ACC)were activated by PBAN/Ca^(2+)signaling,and the RNAimediated knockdown of CaN and ACC transcripts significantly reduced sex pheromone production,ultimately leading to a significantly reduced ability of females to attract males.Importantly,hexokinase(HK)was found to regulate sex pheromone biosynthesis in response to the PBAN/cAMP/PKA signaling pathway,as demonstrated by RNAi,enzyme activity,and pharmacological inhibitor assays.Furthermore,Far2 and Desaturase1 were found to participate in PBAN-regulated sex pheromone biosynthesis.Altogether,our findings revealed that PBAN regulates sex pheromone biosynthesis through the PBANR/Ca^(2+)/CaN/ACC and PBANR/cAMP/PKA/HK pathways in C.punctiferalis,which enriches our comprehension of the details of sex pheromone biosynthesis in moths.

Plasticity of photorespiratory carbon concentration mechanism in Sedobassia sedoides(Pall.)Freitag&G.Kadereit under elevated CO_(2)concentration and salinity

Rising atmospheric CO_(2)(carbon dioxide)concentrations and salinization are manifestations of climate change that affect plant growth and productivity.Species with an intermediate C_(3)-C_(4)type of photosynthesis live in a wide range of precipitation,temperature,and soil quality,but are more often found in warm and dry habitats.One of the intermediate C_(3)-C_(4)photosynthetic type is C_(2)photosynthesis with a carbon concentration mechanism(CCM)that reassimilates CO_(2)released via photorespiration.However,the ecological significance under which C_(2)photosynthesis has advantages over C_(3)and C_(4)plants remains largely unexplored.Salt tolerance and functioning of CCM were studied in plants from two populations(P1 and P2)of Sedobassia sedoides(Pall.)Freitag&G.Kadereit Asch.species with C_(2)photosynthesis exposed to 4 d and 10 d salinity(200 mM NaCl)at ambient(785.7 mg/m^(3),aCO_(2)and elevated(1571.4 mg/m^(3),eCO_(2))CO_(2).On the fourth day of salinity,an increase in Na+content,activity catalase,and superoxide dismutase was observed in both populations.P2 plants showed an increase in proline content and a decrease in photosynthetic enzyme content:rubisco,phosphoenolpyruvate carboxylase(PEPC),and glycine decarboxylase(GDC),which indicated a weakening of C_(2)and C_(4)characteristics under salinity.Treatment under 10 d salinity led to an increased Na^(+)content and activity of cyclic electron flow around photosystem I(PSI CEF),a decreased content of K^(+)and GDC in both populations.P1 plants showed greater salt tolerance,which was assessed by the degree of reduction in photosynthetic enzyme content,PSI CEF activity,and changes in relative growth rate(RGR).Differences between populations were evident under the combination of eCO_(2)and salinity.Under long-term salinity and eCO_(2),more salt-tolerant P1 plants had a higher dry biomass(DW),which was positively correlated with PSI CEF activity.In less salt-tolerant P2 plants,DW correlated with transpiration and dark respiration.Thus,S.sedoides showed a high degree of photosynthetic plasticity under the influence of salinity and eCO_(2)through strengthening(P1 plants)and weakening C_(4)characteristics(P2 plants).

质体ACCase Trp-1999-Leu突变对小麦田菵草生长适合度的影响

为了明确质体乙酰辅酶A羧化酶(ACCase)Trp-1999-Leu突变对小麦田菵草生长适合度的影响,以ACCase基因CT区域的1999位纯合突变型(Leu/Leu, RR)和纯合野生型(Trp/Trp, SS)菵草为对象,采用温室盆栽法探究两种基因型菵草在早期生长阶段及营养生长阶段的株高及地上生物量、成熟期的繁殖力,在室内与田间不同条件下测定两种基因型菵草与小麦竞争能力的差异,以期明确在无除草剂选择压力下该位点突变对菵草生长的影响。结果表明,在菵草生长早期的10~15 d,RR型菵草的生物量和株高分别比SS型低24.9%和11.5%;在营养生长阶段,RR型菵草的相对生长速率(RGR)和净同化率(NAR)分别比SS型菵草低18.2%和28.6%,叶面积比(LAR)高于SS型14.0%,但是二者的地上生物量无显著差异。在成熟期,RR分配给生殖器官的资源更少,无论是繁殖力还是平均植株总种子重量均显著低于SS,分别低13.1%、11.4%。竞争力方面,在室内条件下,随着小麦密度的升高,RR基因型菵草地上生物量及种子产量均显著低于SS型;在田间试验中也证实了室内研究的结果,RR型与SS型菵草相比,与小麦的竞争力更弱。因此,ACCase Trp-1999-Leu基因突变会使抗性菵草产生明显的繁殖力和竞争力适合度代价,研究结果可为该基因型菵草的进化和治理提供一定的理论基础。

5-苯基-1,2,4-噁二唑衍生物的合成及其作为乙酰辅酶A羧化酶抑制剂的生物活性

乙酰辅酶A羧化酶(Acetyl-CoA Carboxylase,ACC)是一种脂肪酸合成限速酶,是肿瘤治疗的热门靶点之一。本文以3-氯苯胺和亚甲基丁二酸为起始原料,经环化、缩合和酰胺化等反应获得了一系列5-苯基-1,2,4-噁二唑类化合物(9a~9i),其中,化合物9a、9b、9e~9h为全新结构,经^(1)H MNR、^(13)C MNR和MS(ESI)进行了表征。通过Molsoft软件计算目标化合物9a~9i的脂水分配系数和类药性分数,使用ADP-Glo^(TM)激酶检测试剂盒检测化合物ACC抑制活性。结果表明:化合物9g在10μM浓度下对ACC抑制活性达到95.26%,与阳性对照药CP-640186相当。

乙酰辅酶A羧化酶相关树突状细胞标记预测肝癌患者的预后及潜在治疗药物识别

目的研究乙酰辅酶A羧化酶(acetyl-coa carboxylase 1,ACACA)基因在肝癌中的表达、预后价值及其与免疫细胞的相关性,构建肝癌预后模型。方法整合基因型组织表达(genotype-tissue expression,GTEx)数据库和癌症基因组图谱(The Cancer Genome Atlas,TCGA)数据分析ACACA基因在癌症及癌旁组织的表达差异,预后分析。分析ACACA与免疫细胞的相关性。使用GSE156625单细胞转录组测序(single cell RNA seq,scRNA-seq)数据研究ACACA在树突状细胞(dendritic cells,DCs)中的表达。建立基于载脂蛋白C-Ⅰ(apolipoprotein c-Ⅰ,APOC1)和载脂蛋白C-Ⅲ(apolipoprotein c-Ⅲ,APOC3)的肝细胞癌(hepatocellular carcinoma,HCC)预后模型,使用Kaplan-Meier生存曲线和时间依赖性受试者操作特征(receiver operator characteristic,ROC)曲线评估预后能力,并通过分子对接分析中药成分在APOC1和APOC3中的作用。结果ACACA在多种癌症中表达差异显著,与肝癌预后相关。高表达ACACA降低树突状细胞含量。APOC1和APOC3是主要DCs标记基因,与ACACA表达正相关。基于APOC1和APOC3的原发性HCC预后模型具有中等的敏感性和特异性。使用列线图预测TCGA队列中肝癌患者的1年,3年和5年总生存期(overall survival,OS)的可能性,并通过校准曲线分析证实了其可靠性。Salvianolic acid B、Asiaticoside和Neohesperidin可能对APOC1和APOC3具有作用潜力。结论ACACA与肝癌预后密切相关,基于APOC1和APOC3的预后模型可作为预测指标,部分中药成分可能对肝癌治疗有潜力。