Transcriptome Analysis via RNA Sequencing Reveals the Molecular Mechanisms Underlying the Hedera helix Response to High Temperature

Hedera helix is an evergreen ornamental plant that is resistant to cool but not high temperature and deserves to be further researched for improving its adaptability to heat stress.Two Hedera helix cultivars,heat-tolerant(HT)‘Jessica’and heat-sensitive(HS)‘Shamrock’,were used for differences analyses of transcriptome.We detected 6179 differentially expressed genes(DEGs)and 5992 DEGs in‘Jessica’and‘Shamrock’to heat stress,respectively.Among these,1983 upregulated DEGs and 1400 downregulated DEGs were shared between both varieties,resulting in enhancement of various pathways such as biosynthesis of secondary metabolites,glyoxylate dicarboxylate metabolism,and protein processing in endoplasmic reticulum(PPER),RNA transport,respectively.Among the common downregulated DEGs,72 TFs in 25 gene families were found,including members of the MYB and MYBrelated families,the bHLH family,etc.In‘Jessica’(HT),634 unique up-regulated DEGs were identified,including genes associated with phenylpropanoid biosynthesis,starch and sucrose metabolism,biosynthesis of amino acids.Most upregulated TFs of HT were upregulated much more rapidly than those of HS in response to high temperature.Eleven TF-encoding genes were selected to verify the RNA sequencing data by qPCR.This study revealed the gene expression patterns of ivy in response to heat stress and the molecular basis of heat tolerance,which provided theoretical references for improving the heat tolerance of ivy.

Antihypertensive efficacy of extract of Hedera helix in high salt-induced hypertensive Sprague-Dawley rats

Objective: To explore the antihypertensive effect of extracts from the leaves of Hedera helix(H. helix) on normotensive and hypertensive rats in-vivo followed by vasodilatory studies in-vitro.Methods: The crude methanolic extract was prepared and the activity directed fractionation was carried out. Spectrophotometric analysis of total phenolic and flavonoid content was also done. HPLC analysis was performed for the detection of hederacoside C. In-vivo blood pressure study was carried out in normotensive and high salt-induced hypertensive SpragueDawley rats. Isolated aortic tissues from rat and rabbit were used for in-vitro studies. The effects were recorded and analyzed through PowerL ab data acquisition system. Results: Crude extract of H. helix(1-30 mg/kg) decreased blood pressure to greater extent in high salt-induced hypertensive rats in-vivo compared to the normotensive [Max. fall(58.59±0.02) mm Hg vs.(67.53±3.07) mmH g]. The n-hexane, chloroform, ethyl acetate and aqueous fractions were also checked. These fractions were more effective in hypertensive rats. Aqueous fraction was more potent and n-hexane the least. In isolated rat aortic rings precontracted with phenylephrine, crude extract induced endothelium-dependent effect. The endothelium-dependent component of vasodilatory effect was ablated with L-NAME, and denudation of endothelium. The aqueous fraction was most potent vasodilator. In aortic rings from hypertensive rats, extract and fractions produced partial endothelium-independent effect which was not affected by pretreatment with L-NAME, indicating endothelium dysfunction in the hypertensive rats and suggesting additional vasodilatory mechanisms. In rabbit aorta, the extract and fractions also inhibited phenylephrine and high K^+-induced precontractions, and shifted Ca^(++) concentration–response curves. Conclusions: Our findings indicate that extract and fractions of H. helix are antihypertensive remedies, which is the outcome of vasodilatory effect. This vasodilatory effect is mediated through nitric oxide and Ca^(++) antagonism.

Effects of Formaldehyde and Low-light Stress on Growth and Nutrition of Hedera spp.

Potted seedlings of Hedera nepalensis and H. helix were exposed to formaldehyde and low light alone or in combination for four months, before the morphological and nutritive indices of the plants were measured to assess the effects of formaldehyde and low-light stress on the growth and nutrient accumulation of Hedera species. The results showed that treatment with either formaldehyde or low-light stress reduced leaf length, leaf width, stem length, stem diameter, root length and biomass, but increased leaf shape index of the two Hedera species. Treatment with formaldehyde alone increased root-shoot ratio, while treatment with formaldehyde ＋ low light or low light alone decreased root-shoot ratio of the two Hedera species. Under the stress of formaldehyde, soluble sugar content decreased, while starch content increased in roots, stems and leaves of the two Hedera species; total carbon content, proline content and carbon-to-nitrogen （C/N） ratio increased, while protein content and phosphorus content decreased in roots of the two Hedera species; the contents of total carbon, protein and total nitrogen in leaves of the two Hedera species; C/N ratio in roots of H. nepalensis increased; the C/N ratio in roots of H. nepalensis and that in leaves of the two Hedera species significantly increased. Under formaldehyde ＋ low light stress, the soluble sugar content decreased, while starch content increased in stems and leaves of the two Hedera species; starch content in roots of the two Hedera species decreased; the contents of protein and total nitrogen decreased, while C/N ratio increased in leaves of H. nepalensis ; proline content in roots and stems of the two Hedera species significantly increased.

Friable Callus Induction of Hedera nepalensis var.sinensis

[Objectives]The purpose was to establish an induction system for friable callus of Hedera nepalensis var.sinensis with different parts.[Methods]By screening the most suitable explant and adjusting the hormone ratio of medium,friable calli of H.nepalensis var.sinensis were induced.[Results]The calli could be induced from leaves,petioles and stem segments,but the ideal explant was stem segments,with induction rate reaching 98%.The optimal medium for callus proliferation was MS+0.5 mg/L KT+1.0 mg/L 2,4-D+30.0 g/L sucrose.After 3-4 generations of subculture on MS+0.5 mg/L BA+1.0 mg/L 2,4-D+30.0 g/L sucrose,favorable friable calli of H.nepalensis var.sinensis were obtained.[Conclusions]The friable calli induced in this experiment can lay a foundation for in-vitro regeneration and cellular secondary metabolite production of H.nepalensis var.sinensis.

酸胁迫对中华常春藤生理特性的影响

为研究中华常春藤在不同程度酸胁迫下的生理变化,探究其在酸胁迫下的耐受机制,以1年生常春藤扦插水培苗为试验材料,设置pH 6.0(CK)、pH 5.0、pH 4.0为3个处理组,对其进行为期15 d的酸胁迫处理,研究其生理生化指标的差异。结果表明:相比CK,酸胁迫显著降低了叶片光合色素含量、气孔导度、净光合速率、蒸腾速率,非光化学猝灭系数和电子传递速率显著下降,脯氨酸、可溶性蛋白、可溶性糖含量显著提升,过氧化物酶、抗坏血酸过氧化物酶、过氧化氢酶、超氧化物歧化酶活性和丙二醛含量在酸胁迫处理下均显著增加。可见,酸胁迫程度的增强加重了光合系统的损坏,削弱了光化学效率和电子传递速率,降低了光合色素含量;同时,膜脂过氧化反应加剧,丙二醛积累量增加,而中华常春藤通过提高抗氧化酶活性及渗透调节物质的含量来提高自身对酸性环境的耐受能力。

外源赤霉素对干旱胁迫下中华常春藤生理特性的影响

【目的】探究外源赤霉素(gibberellic acid,GA_(3))对干旱胁迫下中华常春藤生理特性的影响。【方法】以中华常春藤扦插苗为材料进行良好水分处理与干旱胁迫处理(10%PEG-6000),并喷施不同质量浓度(0、50和100 mg/L)的外源GA_(3),处理15 d后,测定植物叶片的光合色素含量、气体交换参数、叶绿素荧光参数、丙二醛含量、渗透调节物质含量及抗氧化酶活性。【结果】与良好水分处理组相比,干旱胁迫下中华常春藤叶片的光合色素含量和叶绿素荧光参数均显著下降;丙二醛、脯氨酸、可溶性蛋白和可溶性糖含量以及抗氧化酶活性均显著上升。通过外源喷施50和100 mg/L GA_(3)溶液,中华常春藤的光合色素含量、最大光化学效率、实际光化学效率和抗氧化酶活性都得到了显著提升。【结论】外源喷施50和100 mg/L GA_(3)能够缓解干旱胁迫对中华常春藤的伤害,提高其抗旱性,且100 mg/L GA_(3)效果更好。

常春藤秋季光合日变化特性研究

采用Li-6400光合测定系统,以三年生常春藤(Hedera nepalensis var.sinednsis Rehd.)为研究对象,测定其秋季光合特性日变化。结果表明,常春藤净光合速率日变化呈双峰曲线,"午休"现象并不明显,净光合速率最高峰出现在8∶00,次峰出现在11∶00,日最大净光合速率为4.943 3μmol/(m2.s)。净光合速率与蒸腾速率、气孔导度呈正相关,与胞间CO2浓度呈负相关。常春藤的光合日变化特性表明其为典型的耐阴植物,对光照的适应性较强。

3种观赏植物对室内甲醛污染的净化及生长生理响应

在密封条件下,采取熏蒸法研究了常春藤、绿萝、驱蚊草对不同浓度梯度的甲醛气体胁迫的吸收能力及其生理响应。结果显示:(1)3种植物对室内甲醛气体均有不同程度的吸收能力,其吸收率随室内甲醛气体浓度的升高而逐渐增加,且吸收能力表现为常春藤>驱蚊草>绿萝。(2)与对照相比,随着室内甲醛气体胁迫浓度的增加,驱蚊草、绿萝、常春藤的叶绿素含量先升高再降低,而叶绿素a/b值的变化趋势各有不同。(3)不同浓度甲醛气体胁迫下,3种植物的超氧化物歧化酶(SOD)活性和过氧化物酶(POD)活性均显著升高,并以常春藤的增加量最大(分别为113.21%和120.84%),驱蚊草的增加量最小(分别为69.04%和60.76%);而3种植物的过氧化氢酶(CAT)活性与对照相比显著降低,并以驱蚊草的变化量最大(49.54%),绿萝的变化量最小(14.66%)。(4)驱蚊草、绿萝、常春藤的丙二醛(MDA)含量和脯氨酸含量随着甲醛气体浓度的增加呈升高趋势。综合分析表明,3种室内植物耐受甲醛胁迫的能力存在显著差异,常春藤属于吸收多、耐性强的植物,驱蚊草属于吸收多、耐性弱的植物,而绿萝属于吸收少、耐性强的植物。

五种攀缘植物光合作用与光因子关系的初步研究

城市垂直绿化常用的攀缘植物爬山虎、美国爬山虎、紫藤、常春藤、洋常春藤的净光合速率、呼吸速率、光能利用率及光补偿点等指标进行了测定和分析 .结果表明 ,5种攀缘植物的净光合速率日变化显示出“双峰” ,第一峰值出现在 10 :0 0～ 12 :0 0 ,第二峰值出现在 14 :0 0～ 16 :0 0 ,“午休”现象明显 ;呼吸速率的日变化也表现出“双峰” ,第一峰值出现在 11:0 0～ 13:0 0 ,第二峰值出现在 14 :0 0～ 17:0 0 ;常春藤、洋常春藤、爬山虎、美国爬山虎及紫藤的光补偿点分别为 5 .73、5 .0 7、9.96、6 .4 0和 18.93μmol·m-2 ·s-1;紫藤在强光下的光能利用率较高 ,其次为美国爬山虎 ,而在弱光下洋常春藤光能利用率较高 .可以认为 ,紫藤为典型的阳性植物 ,爬山虎、美国爬山虎为中性植物 ,常春藤、洋常春藤为阴性植物 .

常春藤在室内生长适宜光照范围的研究

研究了常春藤 (Hederahelix)适宜生长的光照范围问题。根据光的分布 ,选择房间内具有代表性的光区进行栽培试验。在 1 8～ 2 8℃ ,RH31 %～ 70 %条件下。经栽培 80d后 ,用LI 640 0测定其不同光强下的光合特性 ,计算光补偿点、光饱和点、最大净光合速率。同时测定不同试验区的叶面积、叶片数的生长量。结果表明 :常春藤在 1 8～ 2 8℃及RH31 %～ 70 %室内条件下 ,光照为大于 3.1至小于 834.3μmol·m 2 ·s 1 ( 1 5 5～ 41 71 5lx)可以生长。

5种藤本植物的抗寒性研究初探

为研究藤本植物在低温胁迫下植株的生理、生化变化,对中华常春藤(Hedera nepalensis)、南蛇藤(Celastrus orbiculatus Thunb.)、藤本月季(Rosahybrida Climbing Roses)、云南黄馨(Jasminummesnyi Hance)、扶芳藤(Euonymus fortunei)5种藤本植物在不同低温处理下植物叶片的细胞膜透性、超氧化物歧化酶(SOD)活性和可溶性蛋白质含量进行测定.结果表明:随着温度的降低,胁迫时间的延长,5种植物的叶片细胞膜透性增加,SOD活性增大,可溶性蛋白质含量呈上升趋势;试验表明,这3种变化指标可用于5种植物叶片的抗寒性测定;在这5种植物中,扶芳藤较抗寒,云南黄馨、藤本月季、中华常春藤抗寒性居中,南蛇藤抗寒性最差.

干旱胁迫下常春藤净光合速率日变化及其影响因子分析

利用CIRAS-2型便携式光合仪对干旱胁迫下3a生常春藤(Hedera nepalensis var.sinensis)叶片净光合速率(Pn)的日动态及其主要生态生理因子进行测定分析,以阐明干旱胁迫下Pn的日变化特征及其午休原因,并探讨了影响常春藤Pn的主要影响因子。结果表明,常春藤Pn日动态与土壤水分及微环境因子密切相关。随着干旱胁迫的加重,其Pn日均值及最大值下降显著,其中轻度、中度、重度干旱胁迫下,其Pn日均值分别比对照下降15%,47%,70%;随着干旱胁迫的加重,常春藤Pn日动态由"单峰"向"双峰"型变化,光合作用午休原因由气孔限制为主逐渐过渡到以非气孔限制为主。多元回归及主成分分析表明,适宜水分条件下,影响常春藤Pn的日动态因素可归纳为两类,一类以气温、相对湿度和大气CO2浓度为主,其次是以光照强度为主;随着干旱胁迫的增强,光照强度、大气CO2浓度、相对湿度等生态因子对常春藤Pn的影响越大,其中相对湿度对Pn的影响最显著。

常春藤代谢气体甲醛中间产物及甲醛胁迫下叶片相关生理特性变化分析

很多研究发现常春藤(H.helix)能吸收甲醛(HCHO),对常春藤气体HCHO吸收能力分析表明常春藤能有效清除空气中污染的气体甲醛.13CNMR分析发现用高浓度气体H13CHO处理常春藤,在叶片中出现的主要代谢中间产物为13CH3OH、[[5-13C]Met、U-13C]Gluc、[U-13C]Fruc、[3-13C]Ser、[2-13C]Gly、[5-13C]Arg、[3-13C]Ala、[4-13C]malate、[3-13C]malate及少量的[2-13C]Ser和H13COOH.此外,在气体H13CHO处理短时间的叶片抽提物中有游离H13CHO和甲醛加合物H13CHO-Gln,证实H13CHO确实被吸收到叶片细胞中,随着处理时间的增加这两个峰消失,说明通过自身的代谢作用H13CHO被有效清除.在气体甲醛胁迫下,常春藤叶片丙二醛、过氧化氢和羰基化蛋白质的含量升高,说明甲醛胁迫在常春藤叶片里诱发了氧化损伤,从而使叶片气孔传导率下降,甲醛吸收速率和效率减小.

常春藤挥发油的提取及GC-MS分析

用正交实验法对水蒸气蒸馏提取常春藤挥发油的提取条件进行了研究;结果表明,最佳提取条件为常春藤粉末(20目)加入900 mL的蒸馏水(20℃)浸泡4 h,水蒸气蒸馏7 h。用气相色谱-质谱联用技术测定了最佳提取条件下所得常春藤挥发油的化学成分及其相对质量分数,共分离出30种成分并鉴定出其中21种,主要是萜烯类化合物以及环氧衍生物(33.17%),邻苯二甲酸异丁基酯(18.89%),氧化石竹烯(15.10%),花生酸(13.65%),香紫苏内酯(6.17%),匙叶桉油烯醇(4.77%),葎草烯(2.49%),α-石竹萜烯(1.41%)。

常春藤离体快繁技术

以常春藤Hederanepalensisvar.sinensis茎段为外植体,研究了培养基、植物生长调节物质和移栽基质对常春藤离体快繁的影响。结果表明:起始和增殖培养中高盐质量浓度的MS培养基好于低盐培养基WPM和B5。增殖培养时,在培养基中同时添加2.0mg.L-16-BA和1.0mg.L-1GA3为佳,增殖系数可达到4。以1/2MS为基本培养基,虽然不添加任何生长调节物质亦能获得高生根率,但附加0.10mg.L-1NAA能更好地促进根系发育。移栽基质选用腐质土,成活率可达80%以上。用自来水代替蒸馏水,白砂糖代替蔗糖,对常春藤试管苗的增殖和生长无显著影响,可降低培养成本。

3种藤本植物对自然干旱胁迫的生理生化响应

为绿化植物栽培及其抗旱品种筛选提供参考,以五叶地锦、花叶常春藤和常春油麻藤3种藤本植物的2年生实生苗为试验材料,采用盆栽试验研究自然干旱胁迫0~16d对植物生理生化指标的影响。结果表明:随着干旱胁迫时间延长,3种藤本植物叶片的水分饱和亏缺上升,相对含水量下降,且品种间差异显著;在干旱胁迫16d(极重度干旱)时,五叶地锦和花叶常春藤叶片的相对含水量下降较少。自然干旱胁迫对常春油麻藤叶片叶绿素含量的影响较小;随着干旱胁迫时间延长,3种植物的相对电导率和丙二醛含量均不同程度增加,游离脯氨酸含量增加显著,超氧化物歧化酶活性呈先增加后降低趋势,且五叶地锦和常春油麻藤的超氧化物歧化酶活性增幅显著。3种藤本植物均具有一定抗旱能力,对自然干旱胁迫的生理生化响应差异显著,但五叶地锦和花叶常春藤的抗旱能力强于常春油麻藤。

不同基质对花叶常春藤扦插生根的影响

[目的]研究不同基质培养对花叶常春藤扦插生根的影响效应。[方法]设计5种不同的扦插基质配方对花叶常春藤进行扦插生根培养,测量不同基质配方下的容重、含水量和通气状况,以及插穗的根长、根粗、根重、叶绿体色素的含量、根系活力等数据。[结果]珍珠岩+蛭石+泥炭(1∶1∶1)的扦插基质对花叶常春藤的生根效应最好。[结论]该研究可为花叶常春藤的扦插繁殖研究提供一定理论参考。

洋常春藤和金边吊兰对香烟烟雾的净化效果与生理响应

以洋常春藤(Hedera helix L.)和金边吊兰(Chlorophtum comosum variegaturn Hort.)为研究对象,在长、宽、高均为60 cm的玻璃装置中,模拟人的吸烟方式,注入2支香烟,测定48 h内CO和PM2.5浓度变化,观察处理前后植物的表型变化,并测定植物叶片生理指标变化,以研究2种垂吊植物对香烟烟雾净化能力及生长生理响应。结果表明,洋常春藤和金边吊兰均可在一定程度上吸收或吸附CO与PM2.5,净化密闭环境中的空气,且洋常春藤的单位叶面积的净化能力优于金边吊兰;香烟烟雾处理对植物生长产生了一定的影响,叶片出现黑褐色斑点或叶缘焦枯状;香烟烟雾处理后,2种植物叶片活性氧(超氧阴离子和过氧化氢)水平显著增加,造成膜脂过氧化产物丙二醛含量增加,植物通过增强过氧化物酶活性或增加脯氨酸的合成,抵御伤害,且金边吊兰的抗性强于洋常春藤。

叶面及根际施用外源NO对盐胁迫下中华常春藤生理特性的影响

【目的】探讨盐胁迫对中华常春藤(Hedera nepalensis var.sinensis)生理特性的影响,以及外源NO对植株盐胁迫的缓解效应。为提高植株耐盐性及其在盐渍地区的推广应用提供参考依据。【方法】以中华常春藤水培苗为试验材料,进行不同浓度盐胁迫及叶面和根际施用NO供体SNP处理,测定其相关生理指标。【结果】(1)300 mmol/L盐处理下,中华常春藤叶片叶绿素a(Chla)和b(Chlb)及总量、电子传递速率(ETR)、最大光化学量子产量(F_(v)/F_(m))、实际光化学量子产量(Y_((Ⅱ)))降至最低,分别是对照(CK)的23%、20%、23%、41%、51%和41%,而丙二醛(MDA)含量却升至最高,相比CK增加了88%。过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)、过氧化物酶(POD)活性和可溶性物质含量在不同程度盐胁迫下均显著增加。(2)100 mmol/L盐浓度下,叶面喷施和根际施用SNP组比未施用组叶绿素总量、ETR、F_(v)/F_(m)以及Y_((Ⅱ))分别上升了80%/2%、61%/21%、13%/11%和106%/56%。(3)300 mmol/L盐浓度下,叶面喷施和根际施用SNP组比未施用组叶绿素总量、ETR、F_(v)/F_(m)以及Y_((Ⅱ))分别上升了73%/35%、92%/18%、36%/15%和86%/50%;此外,抗氧化酶活性和可溶性物质含量均在300 mmol/L盐胁迫和叶面喷施SNP共同处理下达到最大值。【结论】高浓度盐胁迫导致中华常春藤叶片膜脂过氧化严重,光合机构受损,光合速率显著下降。而外施SNP可通过提高光合色素含量、抗氧化酶活性及可溶性物质含量等缓解盐胁迫对植株的伤害,且以叶面喷施SNP的缓解效果最佳。

新疆菊参化学成分的研究

从新疆菊参的地下部分分离得到五个成份(Ⅰ、Ⅱ、Ⅲ、Ⅳ、Ⅴ),经UV、IR、^(?)HNMR、MS等光谱方法鉴定了它们的结构,分别是芹菜甙元(Ⅰ)、常春藤甙元(Ⅱ)、阿魏酸(Ⅲ)、β-谷甾醇(Ⅳ)、及 2’,3,4,4’-四羟基查尔酮(Ⅴ).其中β-谷甾醇及 2’,3,4,4’-四羟基查尔酮均为首次从该种植物中获得.