柿果实采后胞壁多糖代谢及其降解酶活性的变化

以富平尖柿为试验材料,研究了室温下柿果实硬度和细胞壁组分及其降解酶活性变化。结果表明,柿采后后熟期间果肉硬度持续下降,平均日下降3．1％,其中第7天到第16天下降最快,平均日下降6．9％。碳酸钠可溶果胶(SSP)和24％KOH可溶组分含量持续下降,与果肉硬度变化呈极显著正相关(r分别为0．9698和0．8084);而水溶性果胶(WSP)和4％KOH可溶组分含量不断上升,与果肉硬度变化呈极显著负相关(r分别为0．9566和-0．9392),螯合剂可溶果胶(CSP)与24％KOH不溶组分含量变化缓慢。多聚半乳糖醛酸酶(PG)和纤维素酶(Cx)活性均在采后第16天达最高值。相关性分析表明,PG活性上升可能是导致柿SSP含量下降和WSP含量上升的主要原因;而Cx活性则可能引起纤维素以及难溶性的半纤维素(24％KOH可溶组分)向易溶的半纤维素(4％KOH可溶组分)转化,从而导致了柿果肉硬度的下降。     

赤霉素和萘乙酸对柿果实采后成熟软化生理指标的影响

以采后'富平尖柿'果实为试材,常温下用60 mg/L赤霉素(GA3)和20 mg/L α-萘乙酸(NAA)进行处理,考察柿果实成熟软化相关生理指标及果胶物质代谢在贮藏过程中的变化,以明确GA3和NAA处理对柿果实贮藏效果的影响.结果显示:GA3、NAA处理果实的贮藏时间分别比对照延长了4 d和10 d;GA3和NAA处理可显著延缓果实硬度的下降进程,有效降低果实呼吸强度和乙烯释放量,且呼吸高峰和乙烯高峰的出现明显迟于对照;果实多聚半乳糖醛酸酶(PG)活性的升高受到抑制,从而延缓了原果胶的降解以及水溶性果胶含量的增加,阻碍了果实的软化进程.试验表明,GA3和NAA处理可有效延缓柿果实的后熟软化,延长其贮藏期限, 并以GA3的效果尤为明显.     

柿果实采收后软化生理分析（简报）

柿子(乾县火柿)采后的粗纤维、原果胶、单宁和可溶性固形物含量都随硬度的降低而降低,可溶性果胶则升高。多聚半乳糖醛酸酶和纤维素酶活性逐渐升高,果胶甲酯酶活性和蛋白质含量逐渐降低,都在果实变软时同时出现高峰;随后出现呼吸峰和乙烯峰。     

柿果实采后软化过程中细胞壁组分代谢和超微结构的变化

柿果实采后果胶酯酶活性迅速上升,其活性与果实硬度的下降呈明显的负相关。多聚半乳糖醛酸酶活性增加缓慢,但其活性与果实硬度的下降无明显相关性。β-半乳糖苷酶活性迅速增加,其活性与果实硬度的下降呈明显的负相关。纤维素酶活性呈逐渐上升趋势,与果实硬度的下降也呈明显的负相关。伴随着细胞壁水解酶活性的增加,果实原果胶和纤维素含量迅速下降,而水溶性果胶含量则迅速上升。柿果刚采收时细胞壁结构完整,3d后细胞壁中胶层基本被溶解,甚至初生壁也局部发生降解。     

猕猴桃果实采后生理研究进展

猕猴桃（Actinidia chinensis Planch.）属于呼吸跃变型果实,采后易软化腐烂,不耐贮藏,如何延长猕猴桃果实贮藏期限已成为猕猴桃产业发展壮大亟待解决的问题。猕猴桃果实采后生理变化强烈影响果实的贮藏期限和果实品质,特别是呼吸作用、乙烯合成及其信号转导系统和果实软化等,并且它们与猕猴桃贮藏保鲜技术的研发与应用密切相关。本文重点从这3个方面就国内外相关研究进展进行综述,并讨论它们对猕猴桃耐贮性的影响,以期为猕猴桃耐贮新品种的培育和贮藏保鲜技术的研发提供理论依据。     

丙烯对柿果实采后细胞壁物质代谢和几种生理指标的影响

丙烯处理的柿果实,其软化进程显著加快,呼吸速率和乙烯释放高峰提前,且峰值升高,细胞壁各组分的代谢速度加快,柿果实中多聚半乳糖醛酸酶（PG）和纤维素酶（Cx）活性提高,且高峰提前。     

成串采收对番茄果实采后乙烯合成及贮藏品质的影响

为研究成串采收对番茄果实采后乙烯合成及贮藏品质的影响,对广西田阳县两个栽培区两种嫁接砧木的串收番茄的采后生理指标进行测定,探讨了该采收方式对番茄果实采后保鲜的作用机制。结果表明:整个贮藏期,不同栽培区不同嫁接砧木的番茄成串采收的果实,乙烯生成量明显低于对照的常规单果采收。其中,砧木1号Ⅰ区的串收番茄的乙烯生成量,采后5 d即下降至最低点(0.35 nL·g~(-1)·h~(-1)),显著低于其对照(1.36 nL·g~(-1)·h~(-1)),其他栽培区和砧木组合的串收番茄,在采后15 d乙烯生成量达到最低值。串收番茄的类胡萝卜素、番茄红素和抗坏血酸等果实内天然抗氧化物质的含量,在贮藏前期快速升高,且峰值显著高于对照。此外,成串采收处理还一定程度抑制了果实后熟阶段可溶性糖的积累和可滴定酸的分解。因此,番茄成串采收处理,可能通过抑制果实采后乙烯的合成,同时提高类胡萝卜素、番茄红素和抗坏血酸的水平,并且推迟糖和酸等营养物质的后熟变化进程,实现其延长果实货架期,提高商品品质的作用。     

氧化还原电位对Actinobacillus succinogenes厌氧发酵生产丁二酸的影响

为提高琥珀酸放线菌Actinobacillus succinogenes CGMCC1593厌氧发酵产丁二酸的水平。研究了以葡萄糖为C源,发酵液中不同氧化还原电位（VORP）对A．succirtogenes CGMCC1593生长和代谢产物分布的影响。结果表明：菌体生长和丁二酸积累的较佳VORP分别为-220mV和-270mV;利用代谢流分析法,比较VORP在-220mV和-270mV时发酵对数生长期（8h）和稳定期（20h）的代谢通量分布,以及发酵过程中磷酸烯醇式丙酮酸（PEP）、丙酮酸（Pyr）节点,NADH通量分配的变化,由此得出在VORP为-270mV时,NADH总通量和丁二酸方向代谢通量增幅明显。在发酵过程中,通过降低VORP至-270mV,使丁二酸的产率从70％提高到85％。     

人工脱涩处理对广西野生柿种质果实贮藏性的影响

为研究广西野生柿种质资源果实采后软化机制,该研究以广西特有的野生柿种质’油柿’(YS)、’农家栽培柿’(ZP)和主栽品种’恭城月柿’为材料,分析了人工脱涩乙烯利处理的果实采后贮藏中可滴定酸含量、可溶性糖含量、硬度、乙烯生物合成量、色差、可溶性单宁含量、果胶及细胞壁降解酶活性的变化。结果表明:(1)与’恭城月柿’相比,’油柿’可滴定酸含量高,可溶性糖含量低,转色缓慢,果实易软化。其中,YS-4最不耐贮藏,乙烯利处理后,贮藏第4天硬度降至1.620 N,第6天可溶性单宁含量下降至2.398mg·g^-1,整个贮藏期原果胶含量下降最慢,末期可溶性果胶值最低,为0.832%; YS-2最耐贮藏,乙烯利处理第8天硬度为YS-4的3.6倍,贮藏末期硬度在所有’油柿’中最高。(2)’农家栽培柿’中乙烯利处理贮藏末期ZP-2可滴定酸含量最高,可溶性糖含量低,转色最缓慢,原果胶降幅最小,可溶性果胶含量最高;相反ZP-3果实转色快且易软化,可滴定酸含量最低,可溶性糖含量低,原果胶降幅最大,可溶性果胶含量低。(3)’恭城月柿’PG酶活性和Cx酶活性远远高于’油柿’,各’油柿’种质的果实软...     

控制发酵过程氧化还原电位优化酿酒酵母乙醇生产

利用氧化还原电极,研究了在厌氧条件下将氧化还原电位值(ORP)控制在不同水平(-50mV、-100mV、-150mV、-230mV)对乙醇发酵过程的影响。试验结果表明,不同的ORP值水平对乙醇得率,甘油形成、有机酸分泌、生物量和菌体死亡率的影响有明显的差异。当ORP为-50mV时的生物量是ORP为-100mV时的1.26倍、ORP为-150mV时的1.86倍、ORP为-230mV时的2.59倍,甘油浓度分别是后三者的1.2倍、1.1倍、1.7倍,而乙醇浓度却分别只有后三者的0.87倍、0.49倍、0.51倍。综合考虑生物量、乙醇浓度、甘油产量、残糖的测定结果,表明将ORP控制在-150mV时对乙醇发酵极为有利。说明可以用ORP电极来精确控制厌氧发酵条件,从而为酵母细胞合理分配代谢流以实现乙醇生产最优化的宏观控制提供了一种有效的手段。     

低乙烯减压处理对柿果实乙烯生物合成的影响

在 1 0℃± 1℃的条件下 ,研究了低乙烯减压处理对火柿采后乙烯生物合成的影响。结果表明 ,低乙烯减压处理使火柿 ACC含量降低 ,EFE活性减弱 ,从而显著抑制了乙烯的产生 ,延迟了乙烯峰出现的时间。该处理能显著延缓火柿硬度的下降。     

Kinetics and effects of trace elements and electron complexes on 2-keto-4-methylthiobutyric acid-dependent biosynthesis of ethylene in soil

AIMS: 2-Keto-4-methylthiobutyric acid (KMBA) is an established intermediate in microbial biosynthesis of ethylene from methionine. This study demonstrates the kinetics and effects of trace elements and electron complexes on substrate (KMBA)-derived C2H4 biosynthesis in soil. METHODS AND RESULTS: We have previously reported KMBA-dependent C2H4 production in soil. We studied the kinetics and effects of various trace elements and electron complexes on KMBA-derived C2H4 biosynthesis in soil by gas chromatography. Kinetic analysis revealed that ethylene forming enzyme (EFE) reaction was linear (R2 = 0.9448) when velocity of reaction (V) was plotted against substrate [S] over the range from 2.5 to 10 mmol l(-1) and thus followed a first order reaction. Application of three linear transformations of the Michaelis-Menten equation indicated high affinity of EFE for the substrate because Km values ranged between 5.4 and 6.67 mmol l(-1) and Vmax of reaction was between 22.4 and 35.7 nmol kg(-1) soil 120 cm(-1). Most of the trace elements exhibited positive effects on KMBA-dependent C2H4 production in soil. Maximum stimulatory effect on C2H4 biosynthesis was observed in response to Co(II) application, while Fe(III) inhibited the biotransformation of KMBA into C2H4. Contrarily, most of the tested electron complexes inhibited KMBA-derived C2H4 biosynthesis in the soil. However, lower concentrations (1.0 mmol l(-1)) of mannitol and hydroquinone were stimulatory to C2H4 production in soil compared with controls (substrate only). Conclusions: The results revealed that both kind and concentration of trace elements and electron complexes affected the substrate-dependent production of C2H4 in soil with different degrees of efficacy. SIGNIFICANCE AND IMPACT OF THE STUDY: The C2H4 in the root environment could be physiologically active even at low concentrations, so knowledge regarding various factors which regulate C2H4 biosynthesis in soil could be of significance for plant growth and development.     

Effect of temperature on ethylene biosynthesis in carnation petals

Carnation petals, at a stage in which they are already producing ethylene, show a sigmoidal dependency of ethylene production on temperature within the range of 0 to 30°C. An Arrhenius plot of these data show a break atca. 22°C in the straight lines connecting the points. The activity of the ethylene-forming enzyme (EFE), measured bothin vitro, using isolated membranes, andin vivo, using petals pretreated with 1-aminocyclopropane-1-carboxylic acid (ACC), shows an exponential dependency on temperature within the same range. Arrhenius plots of EFE activity fail to show any discontinuity.In contrast, ACC synthase activity measuredin vitro shows the same sigmoidal dependency on temperature as that of the intact petals. We suggest, therefore, that ACC synthase activity is the rate-limiting step mediating the influence of temperature on ethylene biosynthesis by carnation petals over the range studied.     

Oxidation of ethylene by cotyledon extracts from Vicia faba L.

Improved rates of ethylene oxidation by cell-free preparations from cotyledons of Vicia faba L. have been obtained using cryogenic storage techniques and by developing a method for the hydrolysis of ethylene oxide. Gel permeation chromatography showed that a low-molecular-size fraction was required for activity; accordingly, the kinetics of ethylene oxidation in the presence of this fraction were studied. Reduced pyridine nucleotides could substitute for the low-molecular-size fraction. Activity under a nitrogen atmosphere was 60% lower than in air. The need for reduced nicotinamide adenine dinucleotide phosphate (NADPH) and oxygen indicated that the enzyme might be a mixed-function oxidase. Using sufficient NADPH to approach saturation, the apparent Michaelis constant (K _m) for ethylene was 1.94±0.38 · 10^-8 M (aqueous phase), and when ethylene was saturating, the K _m for NADPH was 3.7 · 10^-5 M. Carbon monoxide was found to inhibit by competing with ethylene, and the inhibitor constant was 5.97 · 10^-7 M in solution. In the presence of excess ethylene and NADPH, activity was highest in phosphate-buffered medium pH 7.9. The bulk of the activity was found in a microsomal fraction.Abbreviations Epps N-2-hydroxyethylpiperazine-N-3-propane sulphinic acid - Tris 2-amino-2-(hydroxymethyl)-1,3-porpanediol     

芽胞杆菌抗菌活性和纤维素酶活性的测定

目的筛选鸡用益生菌。方法通过牛津杯法、混菌法和DNS分光光度法对从鸡肠道分离的10株芽胞杆菌进行抑菌效果及纤维素酶活性测定。结果编号为Y1、Y5、Y7的3株芽胞杆菌对测试菌具有较好抑菌效果,编号为Y2、Y4、Y5的3株芽胞杆菌具有较高的产酶活性。结论从分离的10株芽胞杆菌中筛选出1株（编号为Y5）兼具较好抑菌效果和较高产酶活性的地衣芽胞杆菌,具有作为饲用益生菌开发的潜能。     

生物炭对杉木人工林土壤养分、酶活性及细菌性质的影响

为了探究添加生物炭对南方红壤杉木人工林土壤养分含量、酶活性及细菌丰度和群落结构及多样性的影响,分析三者之间的作用机制,基于高通量测序技术,通过添加不同生物炭对人工杉木林土壤环境中细菌群落进行培养和测定,同时挑选与土壤C、N循环相关的4种酶,分析4种酶与土壤养分含量及土壤细菌相对丰度的关系。结果表明:添加生物炭总体使得土壤pH值,全磷、有效磷、速效钾等含量有所提高,同时促进土壤-α-葡萄糖苷酶、土壤-β-葡萄糖苷酶及脲酶的活性,对过氧化氢酶的影响不显著;由于生物炭制备原料不同,其自身性质和物质含量也存在差异,因此杉叶炭对土壤养分的提高量大于木屑炭,而木屑炭处理的土壤全碳含量高于杉叶炭;低添加量生物炭对参与碳循环的土壤葡萄糖苷酶活性提高程度大于高添加量生物炭,而与氮循环有关的土壤脲酶活性随着生物炭添加量的增加而提高,尤其3%BL600处理对土壤脲酶影响十分显著;向土壤添加杉叶炭能够提高土壤细菌丰度,而木屑炭降低了土壤细菌丰度,低温炭大于高温炭;添加生物炭对土壤pH值,全碳、全磷、有效磷、速效钾含量等具有直接影响,土壤组分和性质对不同细菌种群生活习性与功能产生不同的影响,土壤酶活性与土壤细菌存在密切的联系,细菌丰度的变化又会引起土壤酶活性的改变,因此土壤酶活性和细菌群落相对丰度对添加生物炭的响应存在一定的相关关系。     

Pseudophosphorylation of Arabidopsis jasmonate biosynthesis enzyme lipoxygenase 2 via mutation of Ser600 inhibits enzyme activity

Jasmonates are oxylipin phytohormones critical for plant resistance against necrotrophic pathogens and chewing herbivores. An early step in their biosynthesis is catalyzed by non-heme iron lipoxygenases (LOX; EC 1.13.11.12). In Arabidopsis thaliana, phosphorylation of Ser⁶⁰⁰ of AtLOX2 was previously reported, but whether phosphorylation regulates AtLOX2 activity is unclear. Here, we characterize the kinetic properties of recombinant WT AtLOX2 (AtLOX2^WT). AtLOX2^WT displays positive cooperativity with α-linolenic acid (α-LeA, jasmonate precursor), linoleic acid (LA), and arachidonic acid (AA) as substrates. Enzyme velocity with endogenous substrates α-LeA and LA increased with pH. For α-LeA, this increase was accompanied by a decrease in substrate affinity at alkaline pH; thus, the catalytic efficiency for α-LeA was not affected over the pH range tested. Analysis of Ser⁶⁰⁰ phosphovariants demonstrated that pseudophosphorylation inhibits enzyme activity. AtLOX2 activity was not detected in phosphomimics Atlox2^S600D and Atlox2^S600M when α-LeA or AA were used as substrates. In contrast, phosphonull mutant Atlox2^S600A exhibited strong activity with all three substrates, α-LeA, LA, and AA. Structural comparison between the AtLOX2 AlphaFold model and a complex between 8R-LOX and a 20C polyunsaturated fatty acid suggests a close proximity between AtLOX2 Ser⁶⁰⁰ and the carboxylic acid head group of the polyunsaturated fatty acid. This analysis indicates that Ser⁶⁰⁰ is located at a critical position within the AtLOX2 structure and highlights how Ser⁶⁰⁰ phosphorylation could affect AtLOX2 catalytic activity. Overall, we propose that AtLOX2 Ser⁶⁰⁰ phosphorylation represents a key mechanism for the regulation of AtLOX2 activity and, thus, the jasmonate biosynthesis pathway and plant resistance.     

Oxidation and reduction of arsenic by Sulfolobus acidocaldarius strain BC

Abstract The mineral leaching archaebacterium Sulfolobus acidocaldarius strain BC is shown to have the ability to oxidise arsenite to arsenate. Arsenite oxidation activity was 8-fold higher for cells grown in the presence of arsenite when compared with cells grown without arsenite. In cell-free extracts, the arsenite oxidation activity was found in the membrane fraction. The arsenite oxidation activity was sensitive to proteinase K and showed the highest activity at acidic pH. A tetrathionate-dependent arsenate reduction activity was also observed.