NaCl胁迫对番茄叶片光合特性及蔗糖代谢的影响

为了从碳水化合物生产及代谢的角度分析盐胁迫影响番茄产量和果实品质的原因,以番茄品种‘辽园多丽’为试材,研究不同浓度的NaCl胁迫处理对番茄光合特性及叶片中糖代谢的影响。结果表明:盐胁迫导致番茄叶片的净光合速率下降,NaCl浓度越大降低得越多;盐胁迫降低了番茄叶片的气孔导度、胞间CO2浓度和蒸腾速率,降低了番茄叶片的叶绿素a、b和总叶绿素含量,这种降低与NaCl浓度正相关。NaCl胁迫导致番茄叶片中果糖和葡萄糖大量积累,NaCl浓度越高积累得越多;NaCl胁迫降低了番茄叶片中的蔗糖和淀粉含量;NaCl胁迫后,番茄叶片中的转化酶活性以及蔗糖合成酶活性均有所提高,而且随着盐浓度增加而增大。说明NaCl胁迫破坏了番茄叶片的光合机能,降低了光合作用效率,而且盐浓度越大降低得越多;NaCl改变了番茄叶片中的糖代谢方向,显著增加了淀粉和蔗糖的分解,提高了叶片中的果糖和葡萄糖含量,而且这种影响随着盐浓度增加而增大。     

Microbial protein formation of different carbohydrates in vitro

The aim of this study was to investigate the microbial protein yield of different pure carbohydrates to contribute to a more precise prediction of the microbial protein formed in the rumen. In a first experiment, sucrose, wheat starch, microcrystalline cellulose and citrus pectin were incubated for 8 and 24 hr in the modified Hohenheim gas test (HGT) system (3 runs × 2 syringes) including gas production, ammonia and short‐chain fatty acid concentration measurements. Ammonia values were used for estimation of the microbial protein formation. In a second experiment, the same substrates were incubated for 96 hr in the HGT system (2 runs × 3 syringes) and gas production was measured after 2, 4, 6, 8, 12, 16, 24, 30, 36, 48, 60, 72 and 96 hr of incubation to obtain the fermentation kinetics and the time of half‐maximal gas production (t_1/2) of the substrates. The substrates differed considerably in their fermentation kinetics, and therefore, comparison on the basis of t_1/2 was chosen as the most meaningful. At t_1/2, microbial protein yield [g/kg dry matter] was higher for cellulose than for sucrose and pectin and higher for starch than for sucrose. The microbial protein expressed in g/L gas production was higher for starch and cellulose than for sucrose and pectin at t_1/2. Effects of carbohydrates related to ruminal pH may remain undetected in in vitro trials.     

Structure and expression analysis of the sucrose synthase gene family in apple

Sucrose synthases (SUS) are a family of enzymes that play pivotal roles in carbon partitioning, sink strength and plant development. A total of 11 SUS genes have been identified in the genome of Malus domestica (MdSUSs), and phylogenetic analysis revealed that the MdSUS genes were divided into three groups, named as SUS I, SUS II and SUS III, respectively. The SUS I and SUS III groups included four homologs each, whereas the SUS II group contained three homologs. SUS genes in the same group showed similar structural characteristics, such as exon number, size and length distribution. After assessing four different tissues, MdSUS1s and MdSUS2.1 showed the highest expression in fruit, whereas MdSUS2.2/2.3 and MdSUS3s exhibit the highest expression in shoot tips. Most MdSUSs showed decreased expression during fruit development, similar to SUS enzyme activity, but both MdSUS2.1 and MdSUS1.4 displayed opposite expression profiles. These results suggest that different MdSUS genes might play distinct roles in the sink-source sugar cycle and sugar utilization in apple sink tissues.     

蔗糖水解酶注释基因XC0805与野油菜黄单胞菌8004菌株的蔗糖利用及致病相关

 野油菜黄单胞菌(Xanthomonas campestris pv.campestris,Xcc)是造成十字花科植物减产的重要病原菌,其通过水孔或伤口进入植物体内并在维管束中快速繁殖。光合产物(蔗糖)的运输主要依靠植物维管组织,同时蔗糖也是维管组织重要的能量来源。本研究利用生物信息学和遗传学等方法对Xcc中参与蔗糖利用的基因进行了分析,并研究了这些基因与其致病力的关系。Xcc 8004菌株中注释的参与蔗糖分解蛋白的编码基因有XC1002、XC1642、 XC1645和XC0805。 XC1002和XC1642的编码产物属于糖苷水解酶GH97蛋白超家族,而XC1645和XC0805的编码产物则属于GH13家族。突变分析发现除XC0805外,其他3个都不影响Xcc的蔗糖利用能力。接种实验表明,XC0805参与Xcc的侵染或在植物体内的生长,其他3个不参与致病过程。另外,Xcc 8004中预测参与蔗糖转运的基因(XC0806和XC0807)突变并不影响细菌的蔗糖利用和致病力,表明其可能存在其他的蔗糖转运通路。上述结果说明XC0805可能是Xcc 8004主要的蔗糖水解酶基因,且在致病中起重要作用。     

外源蔗糖对离体条件下换锦花小鳞茎发生的影响

从形态学、组织细胞学、生理生化水平、分子水平等多层面探究外源蔗糖浓度对换锦花(Lycori sprengeri)离体小鳞茎发生的影响。结果表明,MS培养基中外源蔗糖缺失时,离体换锦花鳞茎无法产生小鳞茎,蔗糖浓度为30或60 g·L^-1时小鳞茎正常发生,但对小鳞茎发生数量影响不大。鳞片内的蔗糖及可溶性糖含量在腋芽形成前不断积累,且鳞片基部淀粉粒的积累为此处小鳞茎的发生提供物质基础。蔗糖促进了茉莉酸甲酯(MeJA)在植物体内的积累,抑制了LsWIP1、LsERS2和LsEIN2基因表达量的异常上升,表明蔗糖可能作为信号分子启动了相关损伤保护机制,并促进了小鳞茎的发生。     

Potato tuber sugars, starch and organic acids in relation to ozone exposure

Summary Data from two Swedish and one Finnish open-top chamber experiments were combined to investigate effects of ozone exposure on potato (Solanum tuberosum L.) tuber content of starch, sucrose, fructose, glucose, malic, citric and ascorbic acids. The glucose, fructose and malic acid concentrations showed strong negative correlations with ozone exposure, while citric acid, consistently increased with ozone exposure. No ozone effects could be demonstrated on starch, sucrose or ascorbic acid concentrations. It is discussed to what extent the changes found in potato tuber composition can be explained in terms of ozone effects on tuber maturity. Ozone exposure was expressed as the accumulated exposure over a cut-off concentration of 40 nmol mol⁻¹ (AOT40) and as the accumulated uptake of ozone over an ozone uptake rate threshold of 7 nmol m⁻² s⁻¹ (CUO 7). The difference in ability of the exposure indices to explain observed effects was small.     

Leaf Carbon Isotope Discrimination and its Relation with Qualitative Root Traits and Harvest Index in Sugar Beet (Beta vulgaris L.)

Twenty commercial sugar beet varieties were grown at two sites in central Greece during the 2001 growing season (March to October), in a completely randomized block design with three replications. Carbon isotope discrimination (Δ) in sugar beet leaves was found to be affected by site and marginally by variety. No relation was found between fresh root yield and Δ, but significant correlations were found between Δ and sucrose content (positive) and between Δ and root α‐amino‐N (negative). Also, the harvest index, determined at one site, was negatively correlated with Δ.     

Effectiveness of selection for quality traits during the early stage in the potato breeding population

Potato cultivars resistant to cold‐temperature sweetening are of major importance to the processing industry producing both chips (crisps) and French fries. When most modern potato cultivars are maintained in cold storage to retard sprouting, the tubers accumulate reducing sugars, and the products become an unacceptable brown colour when fried. Selection for better processing quality during the early generations of a breeding programme could be of considerable advantage. Using a portable ‘sugarmeter’, which requires only a drop of sap from the tuber on a test strip, many samples can be efficiently surveyed for low sugar as early as the F₁ generation. Using seedlings of three test crosses, glucose and specific gravity of field‐grown tubers, minitubers from greenhouses and microtubers from in vitro culture were compared after cold treatment. Although the mean glucose levels of minitubers and microtubers were higher than field‐grown tubers, the correlation between the glucose contents of the three types of tubers was fairly high. A considerable genetic improvement was noted when progenies were grown as minitubers or microtubers, even though the response to selection for low glucose levels in minitubers and microtubers was lower than from direct selection from field‐grown tubers. The specific gravity of field‐grown tubers showed a significant association with freshly harvested minitubers and microtubers. Selection for low glucose content in minitubers can therefore save considerable resources in a breeding programme.     

High frequency of plant regeneration from anther culture in flax, Linum usitatissimum L.

The effects of induction medium compositions on flax anther culture were investigated in order to improve the efficiency of callus induction and plant regeneration. Anthers were inoculated onto the modified MS medium supplemented with five different combinations of plant growth regulators. The medium containing the combination of 2mg/l 2,4- dichlorophenoxy-acetic acid (2,4-D) and 1 mg/1 6-benzylaminopurine (BAP) produced a significantly higher number of calli forming shoots/100 responded anthers and a significant increase in overall efficiency of regeneration than the same basal medium containing 1 mg/1 a-naphthalene-acetic acid (NAA) and 2 mg/1 BAP (CK). Among the five levels of thiamin hydrochloride tested, the modified MS medium containing 10 mg/1 thiamin hydrochloride significantly increased the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration compared with the same basal medium containing 0.1 mg/1 thiamin hydrochloride. Maltose concentration had a significant effect on the percentage of anthers producing call, the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration. The medium containing 6% or 9% maltose produced the highest overall efficiency of regeneration among the five levels of maltose evaluated. Sucrose concentration significantly affected the number of calli forming shoots/100 responded anthers and the overall efficiency of regeneration, and dramatically affected the frequency of microspore-derived plants and the frequency of spontaneous chromosome doubling in microspore-derived plants. The efficiency of doubled haploid line production obtained in this study appears adequate for applied breeding programmes.