外源脱落酸对富士苹果果实膨大后期光合产物向果实运输的影响

为了明确脱落酸(ABA)对苹果果实糖分积累的影响机理,本试验以5年生‘烟富3’/M26/平邑甜茶为试材,采用¹³C同位素标记技术,研究在果实膨大后期用不同浓度(0、50、100和150 mg·L^-1)脱落酸溶液及氟啶酮(ABA生物合成抑制剂)处理果实对光合产物向果实运输及糖代谢的影响.结果表明: 随着ABA浓度的增加,糖代谢相关酶活性、蔗糖转运蛋白基因MdSUT1、MdSUT2.2和山梨醇转运蛋白基因MdSUT3相对表达量呈先升高后降低趋势,均以100 mg·L^-1ABA处理时最高.氟啶酮处理显著抑制了糖代谢酶活性和糖转运蛋白基因相对表达量.与其他处理相比,100 mg·L^-1ABA处理显著减少了叶片¹³C含量,增加了果实¹³C含量,提升了光合产物由叶片向果实的运输速率.表明外源ABA通过增强果实库强,促进更多的光合产物向果实运输,提高了成熟期果实可溶性糖含量.     

钾水平对富士苹果果实膨大期13C同化物向果实转运的影响

以6年生‘烟富3’/M26/平邑甜茶为试材,采用¹³C同位素标记技术,在果实膨大期用不同浓度钾素水溶液(K₂O浓度分别为0、0.5%、1.0%、1.5%、2.0%,分别用CK、K₁、K₂、K₃、K₄表示)涂抹果实周围20 cm范围内叶片,研究其对叶片叶绿素荧光参数、光合性能、糖转运蛋白基因表达、¹³C同化能力及¹³C同化物向果实转运的影响。结果表明: 与其他处理相比,K₃处理显著提高了叶片Rubisco酶活性、净光合速率、PSII原初光能转化效率、PSII实际光化学效率、光化学淬灭系数、山梨醇和蔗糖含量、6-磷酸山梨醇脱氢酶(S6PDH)和蔗糖磷酸合酶(SPS)活性及¹³C同化能力;提高了果柄组织山梨醇转运蛋白基因MdSOT1、MdSOT2和蔗糖转运蛋白基因MdSUT4的表达,促进了糖在果实中的卸载。¹³C自留量(自身叶片+自身新梢)以CK最高,为82.6%,K₃处理最低,为60.5%。果实¹³C吸收量随钾素浓度增加呈先升后降趋势,以K₃处理最高(1.31 mg·g^-1),CK最低(0.57 mg·g^-1)。表明叶施钾素水溶液不同程度提高了叶片PSII光化学效率和碳同化关键酶活性,进一步提高了叶片同化物的合成能力和向外输送能力,促进了糖向果实的定向转运。同化物向果实转运数量以1.5% K₂O涂抹叶片处理(K₃)最多。     

24-Epibrassinolide enhances 5-ALA-induced anthocyanin and flavonol accumulation in calli of ‘Fuji’ apple flesh

Color is a key factor for fruit commercial value. 5-Aminolevulinic acid (5-ALA), as an eco-friendly plant growth regulator, shows an attractively promotive effect on plant secondary metabolism, especially for fruit coloration. Brassinosteroids (BRs) can also improve plant flavonoid biosynthesis. No information is now available on the relationship between 5-ALA and BR. Here, we found that 1.5 mg L^?1 24-epibrassinolide (24-EBL) promoted 50 mg L^?1 5-ALA-induced anthocyanin accumulation, while, brassinazole (Brz) significantly inhibited the 5-ALA-induced flavonoid accumulation. HPLC analysis further showed that the inductive effects of 5-ALA on the accumulation of cyanidin-3-galactoside, quercetin-3-galactoside, quercetin and kaempferol were elevated by 24-EBL, but impaired by Brz. These results suggest that brassinolide biosynthesis might involve in 5-ALA-induced flavonoid accumulation. Gene expression analysis showed that 5-ALA and 5-ALA?+?24-EBL induced the expression of regulatory genes MdMYB10, MdMYB9, MdbHLH3 and MdbHLH33. These two treatments also up-regulated the structural gene expressions of anthocyanin biosynthesis and transportation, including MdCHS, MdF3′H, MdDFR, MdANS, MdUFGT, MdGST and MdMATE, as well as flavonol biosynthetic gene MdFLS. But Brz decreased 5-ALA-induced up-regulation of these genes. In addition, 5-ALA also induced the expression of MdBRI1, MdBAK1 and MdBZR1, which are involved in brassinolide signal transduction. These results indicate that 24-EBL enhances 5-ALA-promoted expression of genes related to flavonoid biosynthesis and brassinolide signal transduction, while Brz exhibits the opposite effects. Taken together, we propose that 24-EBL is involved in 5-ALA-induced anthocyanin and flavonol accumulation in calli of apples. Our results provide new insights into 5-ALA-induced fruit coloration.     

褪黑素对盐碱复合胁迫下黄瓜幼苗光合特性和渗透调节物质含量的影响

为明确外源褪黑素(MT)对黄瓜盐碱胁迫的缓解效应,以‘新春四号’黄瓜为试材,采用复合盐碱(NaCl∶Na₂SO₄∶Na₂CO₃∶NaHCO₃=1∶9∶1∶9)模拟胁迫,测定外源根施MT和盐碱胁迫下黄瓜叶片光合特性和渗透调节物质含量。结果表明: 与正常生长黄瓜幼苗相比,在40 mmol·L^-1盐碱胁迫下,外源施加10 μmol·L^-1 MT能够显著增加黄瓜幼苗叶片的叶绿素、可溶性糖和可溶性蛋白质含量,提高净光合速率、气孔导度、蒸腾速率、光系统Ⅱ最大光化学效率、实际光化学效率、表观光合电子传递速率和光化学淬灭系数,而胞间CO₂浓度、非光化学淬灭系数、蔗糖、果糖、淀粉和脯氨酸含量减小了11.1%、13.8%、12.7%、27.5%、1.3%和32.8%,同时,碳同化关键酶核酮糖-1,5-二磷酸羧化/加氧酶、果糖-1,6-二磷酸酯酶活性显著升高,且Rubisco亚基(CsrbcS和CsrbcL)、CsFBA、CsRCA、CsFBPase、CsTK的mRNA水平均下调表达。综上,外源MT能够提高盐碱胁迫下黄瓜幼苗的叶绿素、渗透调节物质含量、光合化学效率和碳同化关键酶活性,增强幼苗光合能力,减轻复合盐碱胁迫对植株的伤害。研究结果可为抗盐碱栽培提供理论依据。     

氮肥对风箱果幼苗形态和生理特性的影响

采用盆栽实验的方法,设置4种水平氮肥处理,研究不同氮肥处理对风箱果1年生幼苗的生长表现、生物量积累和分配、光合生理特征、非结构性碳（NSC）积累等的影响。结果表明：施用氮肥促进了风箱果幼苗的地径、分枝数和冠幅的生长,促进了茎、叶和总生物量的积累（P<0.05）,提高了茎的生物量分配比例,减少了根生物量的分配比例;施用氮肥显著提高了净光合速率、叶氮含量、茎中的可溶性糖和NSC的积累（P<0.05）,但减少了根中的可溶性糖和NSC含量（P<0.05）。不同水平氮肥处理间（N1、N2、N3）的大部分指标差异并不显著,说明风箱果幼苗对土壤养分的变化并不敏感。     

Potassium enhances the sugar assimilation in leaves and fruit by regulating the expression of key genes involved in sugar metabolism of Asian pears

Potassium (K) plays an important role in fruit quality, and is well known as the most important quality element. A field experiment was conducted with four K levels of 0 (control), 150 (K150), 300 (K300), 450 (K450) kg K₂O ha^?1 in 2014–2015. The aim was to elucidate the roles of K in fruit growth, and the mechanism of K in regulating sugar metabolism between the leaves and fruit of Asian pear (Pyrus L.). The results showed that the K concentration and accumulation in leaves and fruit with the net photosynthetic rate and SPAD value of leaves were found to increase with the increase of K application rates. Increasing K application rates also led to promote the effectiveness of accumulation of glucose, fructose, sorbitol, and sucrose in fruit. During the early fruit development stage, the increase of all soluble sugars in leaves was correlated with the up-regulation expression of gene AIV and S6PDH. Furthermore, with fruit development, the expression of AIV1, SPS1 and SUS, S6PDH and SDH3 involved in sugar metabolism in leaves were up-regulated by increasing the K application rates, resulting in higher accumulation of soluble sugars in leaves. Interestingly, at the fruit maturity stage the expression of SUT in leaves, and SPS1, SUS and SUT in fruit was significantly up-regulated, leading to higher sucrose accumulation in fruit. Thus, K-promoted sugar accumulation of the leaves and fruit might result from up-regulated expression levels of key genes involved in sugar metabolism by K in leaves and fruit.     

miR172-AP2模块调控植物生长发育及逆境响应的研究进展

MicroRNA (miRNA)是一类具有调控能力的非编码小分子RNA, 通过与靶基因mRNA特异或非特异性结合, 诱导靶基因mRNA降解或抑制其翻译, 从而调控植物的生长发育。其中, miR172的靶基因AP2所编码的转录因子为植物所特有, miR172在转录后或翻译水平对AP2进行表达调控, 进而调控植物的花发育、时序转换、小穗形态、块茎和果实发育、结瘤(豆科)以及逆境响应等过程。该文综述了近年来miR172-AP2模块在植物生长发育调控方面的最新研究进展。     

增补UV-B辐射对菥蓂生理特性及次生代谢产物的影响

为了解药用植物菥蓂(Thlaspi arvense)在紫外线(UV-B)辐射增强下生长及响应规律,以2月龄菥蓂幼苗为研究对象,在自然光照基础上人工增补3.26μW·cm^-2(T1)和9.78μW·cm^-2(T2)2种不同辐射强度处理,以自然光照下生长的菥蓂幼苗为对照,研究菥蓂幼苗中光合指标和叶绿素荧光参数、光合色素(叶绿素a和b)含量、渗透调节物质(丙二醛、可溶性蛋白、可溶性糖和脯氨酸)含量、抗氧化酶(超氧化物歧化酶、过氧化物酶、过氧化氢酶和抗坏血酸过氧化氢酶)活性和总黄酮、总酚和黑芥子苷等次生代谢产物含量对不同UV-B辐射强度的响应。结果表明：2种辐射强度下净光合速率、气孔导度、蒸腾速率、胞间二氧化碳摩尔分数、最大荧光(F_m)、PSⅡ最大光化学效率(F_v/F_m)和PSⅡ潜在光化学效率(F_v/F_o)均随辐射强度增大而降低;叶绿素a和叶绿素b、可溶性蛋白、可溶性糖和脯氨酸等渗透调节物质、超氧化物歧化酶、过氧化物酶、过氧化氢酶和抗坏血酸过...     

植物Aux/IAA基因家族生物学功能研究进展

生长素是最重要的植物激素之一,对植物生长发育起着关键调控作用。生长素作用于植物后,早期生长素响应基因家族Aux/IAA、GH3和SAUR等被迅速诱导,基因表达上调。其中Aux/IAA基因家族编码的蛋白一般由4个保守结构域组成,结构域Ⅰ具有抑制生长素信号下游基因表达的作用,结构域Ⅱ在生长素信号转导中主要被TIR1调控进而影响Aux/IAA的稳定性,结构域Ⅲ/Ⅳ通过与生长素响应因子ARF相互作用调控生长素信号。Aux/IAA基因家族在双子叶植物拟南芥(Arabidopsis thaliana)的器官发育、根形成、茎伸长和叶扩张等方面发挥重要作用;在单子叶植物水稻(Oryza sativa)和小麦(Triticum aestivum)中,主要影响根系发育和株型,但大多数Aux/IAA基因的功能尚不清楚。该文主要从Aux/IAA蛋白的结构、功能和生长素信号转导途径方面综述Aux/IAA家族在拟南芥、禾谷类作物及其它植物中的研究进展,以期为全面揭示Aux/IAA家族基因的生物学功能提供线索。     

锌对苹果果实膨大期叶片13C光合产物合成及向果实转移分配的影响

为了探究锌对叶片光合产物向果实转移分配的影响机理,为苹果果实发育关键时期通过补锌措施提高果实品质奠定理论基础,以8年生‘寒富'/GM256/山定子为试材,采用¹³C同位素标记技术,研究苹果树叶片涂抹不同浓度锌(CK、Zn₁、Zn₂、Zn₃、Zn₄,分别代表浓度为0、0.1%、0.2%、0.3%和0.4%的ZnSO₄·H₂O溶液)对果实膨大期叶片¹³C同化能力及¹³C光合产物向果实运输的影响。结果表明: 随着锌浓度的增加,苹果树叶片Rubisco酶活性、净光合速率、山梨醇和蔗糖含量、6-磷酸山梨醇脱氢酶和蔗糖磷酸合酶活性,以及¹³C同化能力呈现先升高后降低的趋势,且均在Zn₃处理下达到最高。与其他处理相比,Zn₃处理的¹³C自留量(标记叶片+标记枝条)最低,为61.2%,而输出量最高,为38.8%。果实¹³C吸收量表现为Zn₃＞Zn₂＞Zn₄＞Zn₁＞CK。这说明叶片涂抹适宜浓度锌(0.3%ZnSO₄·H₂O溶液)处理增强了叶片的光合作用,提高了叶片光合产物的合成能力,促进了光合产物由叶片向果实的定向运输。