转化酶在高等植物蔗糖代谢中的作用研究进展

蔗糖转化酶在高等植物蔗糖代谢中起着关键的作用。研究表明,转化酶参与植物的生长、器官建成、糖分运输、韧皮部卸载及调节库组织糖分构成及水平。近年来关于该酶的生化特性、基因表达与调控以及结构与功能等的研究取得了重要进展。本文介绍了转化酶在植物体内的种类、分布、分子结构特点、生理作用及分子生物学研究进展。     

蔗糖转化酶在高等植物生长发育及胁迫响应中的功能研究进展

随着分子生物学和测序技术的发展,植物蔗糖转化酶基因的克隆、表达调控及其功能方面的研究取得了长足的进展。综述了近年来蔗糖转化酶在植物生长发育、以及转化酶介导的植物对生物与非生物胁迫等过程中的重要作用,并对该领域今后的研究前景进行了展望。     

高等植物中蔗糖降解酶及其基因表达与调控

大多数植物的库器官都是以蔗糖的形式接受碳源和能源,蔗糖进入库代谢需要转化酶和蔗糖合成酶降解成为葡萄糖和果糖,而糖又调节植物代谢过程中许多酶的基因表达,因此蔗糖降解酶是植物生长发育中起关键作用的酶．综述了近年来蔗糖合成酶和转化酶的作用及它们基因表达和调节的研究进展．     

番茄叶片糖与转化酶的日变化研究

为探讨转化酶在叶片糖分含量和光合作用日变化中的作用,测定了番茄(Lycopersicon esculentumL.)叶片光合速率、转化酶活性、淀粉、蔗糖、葡萄糖和果糖含量,并分别分析了12:00前后它们间的相关关系.结果表明:番茄日间叶片净光合速率在10:00和16:00出现一大一小两个高峰;6:00~18:00叶片中淀粉和果糖呈现持续升高,而蔗糖和葡萄糖为先升后降趋势;光合速率同叶片蔗糖含量和胞质转化酶活性存在高度正相关,淀粉和果糖含量同光合速率未表现出显著相关性.由此可知,胞质转化酶在蔗糖代谢方面有明显的作用;果糖可能是通过抑制胞壁转化酶活性,促进了蔗糖外运.     

套袋对梨果实发育过程中糖组分及其相关酶活性的影响

以翠冠和黄金梨为试材,测定套袋和未套袋(对照)梨果实发育时期果实中蔗糖、葡萄糖、果糖和山梨醇含量以及蔗糖代谢相关酶酸性转化酶(AI)、中性转化酶(NI)、蔗糖合成酶(SS)和蔗糖磷酸合成酶(SPS)的活性,并对果实中糖组分积累与酶活性的关系进行了分析.结果表明:(1)两梨品种套袋果实在发育过程中蔗糖、葡萄糖、果糖、山梨醇和糖代谢相关酶活性变化趋势与对照基本一致,套袋果实糖含量均低于对照但差异不显著,而各相关酶活性在两类果实间差异表现各异.(2)在梨果实发育早期,果实中以分解酶类为主,糖分积累低;发育后期以合成酶类为主,糖分积累多.(3)两品种套袋和对照果实AI活性与葡萄糖含量均呈显著或极显著正相关,SS合成方向活性与蔗糖含量均为极显著正相关,且翠冠对照果SPS活性与蔗糖含量呈极显著正相关.可见,套袋通过提高果实发育早期转化酶(Inv)活性,降低果实后期蔗糖磷酸合成酶(SPS)、蔗糖合成酶(SS)的活性来影响糖分积累,从而影响梨果品质.     

植物酸性转化酶基因及其表达调控

酸性转化酶是蔗糖代谢的关键酶,在植物体中具有重要的生理作用。近十几年来,许多植物酸性转化酶基因已经克隆,其基因表达调控的研究也取得了很大的进展。本文综述了植物酸性转化酶﹑ 基因及其蛋白结构、基因表达的器官和发育特异性以及糖、受伤、病原胁迫和激素对基因表达的调节和蛋白抑制因子对酶活性的影响,并讨论了当前在该研究领域存在的问题。     

植物酸性转化酶基因及其表达调控

酸性转化酶是蔗糖代谢的关键酶,在植物体中具有重要的生理作用.近十几年来,许多植物酸性转化酶基因已经克隆,其基因表达调控的研究也取得了很大的进展.本文综述了植物酸性转化酶基因及其蛋白结构、基因表达的器官和发育特异性以及糖、受伤、病原、胁迫和激素对基因表达的调节和蛋白抑制因子对酶活性的影响,并讨论了当前在该研究领域存在的问题.     

遮光灵武长枣果实糖积累和代谢相关酶活性特征

于灵武长枣盛花期对果实进行遮光处理,以自然照光为对照,通过测定果实生长指标、叶绿素含量、蔗糖代谢相关酶活性及其蔗糖代谢糖分含量等,研究果实光合作用在果实糖积累中的作用及对果实多糖和总糖含量积累的影响。结果表明:(1)遮光处理后,果实单粒重、单粒体积以及果实中叶绿素含量均降低。(2)遮光处理不同程度增加了果实中转化酶、蔗糖磷酸合成酶和蔗糖合成酶分解方向酶的活性,而降低了其蔗糖合成酶合成方向酶的活性。(3)遮光处理主要影响果实着色期和成熟期的糖含量,对果实发育初期糖含量影响较小;果实多糖的形成与果实所受光照状况具有一定的关系,而果实中总糖的积累与外界光照具有密切关系。可见,果实遮光处理影响了果实发育过程中蔗糖代谢相关酶的活性,从而影响果实糖分的代谢和积累。     

枇杷果实发育过程中糖积累及相关酶活性变化研究

以'青种'、'霸红'和'鸡蛋白'3个枇杷品种为材料,测定不同果实发育时期果实中蔗糖、葡萄糖和果糖含量以及蔗糖代谢相关酶即酸性转化酶(AI)、中性转化酶(NI)、蔗糖合成酶(SS)和蔗糖磷酸合成酶(SPS)的活性,并对果实中糖积累与酶活性的关系进行了分析.结果表明:在果实膨大期(5月3日)之前,3种枇杷果实的蔗糖、葡萄糖和果糖积累缓慢,之后则迅速积累,存在着明显的转折点;果实成熟(5月23日)之后糖分积累速度趋于平稳.3种枇杷果实在发育过程中转化酶、蔗糖合成酶和蔗糖磷酸合成酶的活性变化与3种糖积累的动态变化趋势相一致.NI和AI活性在果实膨大期之前都较低且没有明显的变化,之后均快速上升;SS和SPS的活性在果实膨大期之前都很低且几乎无变化,随后'鸡蛋白'的活性迅速上升至果实成熟之后便缓慢上升,而'青种'和'霸红'随果实成熟度的增加而升高,但均低于'鸡蛋白'.可见,枇杷果实膨大期是糖分积累代谢活跃期,其糖积累受蔗糖代谢相关酶综合调控.     

野生型和ospk1突变体水稻幼苗根对外源糖分的吸收和响应

植物根系如何响应环境因子变化是植物发育和营养吸收研究的重要科学问题。丙酮酸激酶OsPK1在根部的表达主要在根尖成熟区和根毛区,其表达水平变化有可能影响水稻对外源糖分的吸收。采用日本晴和水稻突变体ospk1,通过改变1/2 MS培养基中蔗糖含量,探索水稻幼苗对外源糖分的吸收和响应。通过GC-MS的方法检测了水稻幼苗叶片、叶鞘和根中蔗糖、葡萄糖、果糖和半乳糖的含量。发现根与培养基中糖分接触能明显提高幼苗中的糖含量。并且这些幼苗的根系长度大于那些不加蔗糖的培养基培养的幼苗,表明外源糖分被吸收后能促进根的伸长。OsPK1表达下调影响了糖代谢和外源糖分的吸收。半定量RT-PCR结果显示,幼苗根与糖分的直接接触明显上调根中OsPIP2;4,OsPIP2;5和OsTIP2;1三个水孔蛋白基因的表达。     

Capping invertase activity by its inhibitor: Roles and implications in sugar signaling,carbon allocation,senescence and evolution

Since the initial biochemical study of a putative invertase inhibitor half a century ago, it has remained as a puzzle as whether such an inhibitory protein indeed limits invertase activity in vivo and, if it does, what is the developmental or physiological significance of such an interaction? Recently, we demonstrated that an invertase inhibitor, INVINH1, specifically inhibited cell wall invertase activity in tomato and Arabidopsis. Silencing INVINH1 expression in tomato released a significant amount of extra cell wall invertase activity. This posttranslational elevation of invertase activity resulted in a blockage of ABA-induced leaf senescence and an increase in fruit sugar levels and seed weight. Here, we discuss the implication of the findings and propose a model that the invertse inhibitor may act as a key modulator in controlling leaf longevity and seed development to ensure success during plant evolution. This may be achieved by optimizing carbon and nitrogen allocation and sugar signaling via interaction between invertase and inhibitor. The discoveries open up exciting new areas for exploring fundamental questions in sugar signaling, carbon allocation and plant development as well as avenues for improving crop productivity.Key words: carbon allocation, evolution, invertase, invertase inhibitor, leaf senescence, seed development, sugar signaling     

Antisense acid invertase (TIV1) gene alters soluble sugar composition and size in transgenic tomato fruit.

Invertase (beta-fructosidase, EC 3.2.1.26) hydrolyzes sucrose to hexose sugars and thus plays a fundamental role in the energy requirements for plant growth and maintenance. Transgenic plants with altered extracellular acid invertase have highly disturbed growth habits. We investigated the role of intracellular soluble acid invertase in plant and fruit development. Transgenic tomato (Lycopersicon esculentum Mill.) plants expressing a constitutive antisense invertase transgene grew identically to wild-type plants. Several lines of transgenic fruit expressing a constitutive antisense invertase gene had increased sucrose and decreased hexose sugar concentrations. Each transgenic line with fruit that had increased sucrose concentrations also had greatly reduced levels of acid invertase in ripe fruit. Sucrose-accumulating fruit were approximately 30% smaller than control fruit, and this differential growth correlated with high rates of sugar accumulation during the last stage of development. These data suggest that soluble acid invertase controls sugar composition in tomato fruit and that this change in composition contributes to alterations in fruit size. In addition, sucrose-accumulating fruit have elevated rates of ethylene evolution relative to control fruit, perhaps as a result of the smaller fruit size of the sucrose-accumulating transgenic lines.     

豆科凝集素研究进展

豆科凝集素是植物凝集素中最丰富,也是研究最多的一类凝集素。在生理条件下豆科凝集素大多是以二聚体或四聚体的形式存在,这种低聚物的形式给予豆科凝集素较强的糖专一性和大分子结构的稳定性。豆科凝集素除作为植物储存物质的作用外,还具有识别糖蛋白、糖肽及生物膜中碳水化合物和作为植物与微生物的共生介质等生理功能。现对豆科凝集素的结构、功能及其在生物学、农业和医学方面的应用进行了综述。     

干旱胁迫对宁夏枸杞生长及果实糖分积累的影响

文章研究不同干旱胁迫下宁夏枸杞生长及果实糖分积累的变化规律,为宁夏枸杞在干旱地区高产栽培提供参考依据。采用盆栽控水试验,设置正常灌水、轻度干旱、中度干旱和重度干旱处理,研究了干旱胁迫对宁夏枸杞植株生长、生物量分配以及果实糖分积累的影响。结果表明：干旱抑制宁夏枸杞新稍、果实、株高和地径的生长：随着干旱程度加剧,根和茎中干物质分配率逐渐升高,而枝条、叶和果实中干物质分配率大幅降低;轻度干旱有利于果实发育过程中果糖的积累,中度和重度干旱胁迫则不利于成熟期果糖和蔗糖积累;干旱胁迫明显降低成熟期转化酶、蔗糖磷酸合成酶（SPS）和蔗糖合成酶（SS）的活性;果实发育过程中果糖的含量与SPS和转化酶活性存在极显著相关。可见,在果实发育期,土壤含水量为田间持水量55％以上,能促进宁夏枸杞果实中糖分积累,有效提高果实品质。     

Demonstration of an intramitochondrial invertase activity and the corresponding sugar transporters of the inner mitochondrial membrane in Jerusalem artichoke (<Emphasis Type="Italic">Helianthus tuberosus</Emphasis> L.) tubers

Genetic evidences indicate that alkaline/neutral invertases are present in plant cell organelles, and they might have a novel physiological function in mitochondria. The present study demonstrates an invertase activity in the mitochondrial matrix of Helianthus tuberosus tubers. The pH optimum, the kinetic parameters and the inhibitor profile of the invertase activity indicated that it belongs to the neutral invertases. In accordance with this topology, transport activities responsible for the mediation of influx/efflux of substrate/products were studied in the inner mitochondrial membrane. The transport of sucrose, glucose and fructose was shown to be bidirectional, saturable and independent of the mitochondrial respiration and membrane potential. Sucrose transport was insensitive to the inhibitors of the proton-sucrose symporters. The different kinetic parameters and inhibitors as well as the absence of cross-inhibition suggest that sucrose, glucose and fructose transport are mediated by separate transporters in the inner mitochondrial membrane. The mitochondrial invertase system composed by an enzyme activity in the matrix and the corresponding sugar transporters might have a role in both osmoregulation and intermediary metabolism.     

Differential effect of the nitrogen form on the leaf gas exchange,amino acid composition,and antioxidant response of sweet pepper at elevated CO<Subscript>2</Subscript>

Cell wall invertases play an important role in plant growth and development, especially in the grain filling of crop plants. However, their potential in high yield crop breeding has not been investigated. In this study, the main hybrid maize cultivar Zheng Dan 958 (ZD958) was used as a basic variety to assess whether ZmGIF1, a cell wall invertase from maize, can be used to breed new cultivars with higher grain yields. ZmGIF1 expression, cell wall invertase activity, and sugar content in different parental inbred cultivars were compared with those in Zheng 58 and Chang 7-2, the parental inbred cultivars of ZD958. Parental cultivars which showed higher ZmGIF1 expression and invertase activity were selected and intercrossed to improve the expression of ZmGIF1. Compared with the basic cultivar ZD958, higher ZmGIF1 expression and cell wall invertase activity were observed in most hybrid F1 lines, leading to increased grain yield in them. All these results suggest that the expression of ZmGIF1 can be manipulated using different parental cultivars to increase the grain yield of their hybrid F1 progenies.