Growth Analysis of Sweet Pepper (Capsicum annuum L.): 1. The Influence of Irradiance and Temperature under Glasshouse Conditions in Winter

A growth analysis was carried out with sweet pepper grown ina glasshouse. The plants received natural daylight or additionalillumination applied either during or after the natural photopenod.All irradiance conditions were applied at three temperatureregimes. Additional illumination increased leaf number, leaf area andtotal dry weight. At all temperatures the long-day treatmentsshowed a smaller number of leaves, but a larger leaf area whencompared to the short-day treatments with the same daily radiationsum. A lower temperature progressively reduced leaf area. The derived growth analysis quantities showed strong ontogenetictrends. When comparing both methods of applying additional illuminationhigher mean relative growth rates were observed for the long-daytreatments, especially at the lowest temperature. No differencesin mean net assimilation rate were found, but the short-daytreatments showed a reduced mean leaf area ratio. A lower nighttemperature decreased RGR and NAR but did not affect LAR, alower day temperature increased NAR and decreased LAR. Changesin LAR were largely mediated by changes in specific leaf weight. Capsicum annuum L., sweet pepper, growth analysis, irradiance, temperature     

辣椒株高遗传分析

以辣椒矮秆自交系B9431（P1）和高秆自交系‘吉林长椒’（P2）为双亲,构建P1、F1、P1、B1、B2和F2 6个家系世代群体,应用植物数量性状主基因＋多基因混合遗传模型对该6个世代群体株高进行多世代联合分析,结果显示：株高遗传符合1对主基因＋多基因遗传模型,高秆对矮秆表现为不完全显性,F1代株高的势能比值为0．39,显性程度为0．91。B1、B2和F2群体主基因遗传率分别为20．35％、17．20％和35．29％,多基因遗传率分别为5．08％、19．75％和0;主基因效应表现为负向加性效应,其值为-6．43,显性效应为0;多基因加性效应值和显性效应值分别为-8．89和9．77。研究还表明,主基因与多基因间的基因效应存在一定差异,主基因加性效应值相当于多基因加性效应值的72．33％,主基因无显性效应,显性效应是由多基因控制遗传。     

辣椒植株性状Hayman双列杂交分析

用辣椒（Capsicam annuum L．）6个亲本,按（1／2）n（n-1）双列杂交法配制15个杂交组合,用Hayman双列杂交分析法估算了5个植株性状的遗传参数。Wr对Wr的回归分析结果表明,侧枝数、株高、株幅、主茎高和首花节位的遗传都符合加性-显性模型。Wr＋Vr与Yr间相关分析表明,侧枝数、株高、株幅、主茎高呈负相关,说明含有更多显性基因的亲本具有较小的Wr＋Vr值;首花节位呈正相关,且达到极显著水平,说明含有更多显性基因的亲本具有较大的Wr＋Vr值。遗传参数估算表明侧枝数、株幅、主茎高和首花节位性状的遗传以加性效应为主,加性效应比显性效应更加重要。株高的遗传中加性效应和显性效应都很重要。     

High Efficiency Organogenesis in Sweet Pepper (Capsicum annuum L.) Tissues from Different Seedling Explants

In vitro plant regeneration was achieved from eightsweet pepper varieties (Capsicum annuum L.). The effect ofvarious explant types (cotyledons, leaves, cotyledonary nodes and shoot-tip from25-day-old seedlings and embryonic cotyledons, embryonic hypocotyls and woundedseedlings) on bud and shoot regeneration and shoot elongation was evaluated.Differences in ability for in vitro shoot regeneration andelongation depended on the variety and explant type. In general, highregeneration frequency was obtained from all varieties. Agridulcedisplayed the highest regeneration response: an average of 3.45 elongated shootsper explant using embryonic cotyledons. Elongated shoots were excised and rootedon Murashige and Skoog (MS) basal medium either without plant growth regulatorsor with 0.5 IBA (indole-3-butyric acid) or 0.05 NAA (-naphthaleneacetic acid). Plantlets weretransplanted to soil and acclimatised in the greenhouse showing normaldevelopment and growing to maturity bearing normal fruits with seeds.     

Virus Diseases of Pepper (Capsicum annuum L.) in Ethiopia

Viruses occurring in hot pepper (Capsicum annuum L.) in Ethiopia during 1984–1986 were identified and their symptomatology, host range, serology, morphology and transmission described. Potyviruses were found to cause severe infections of pepper wherever the crop was observed. Disease incidence and yield loss in most surveyed areas were estimated at 40–100 % and 15–50 %, respectively. Besides potato Y and pepper veinal mottle viruses, a new potyvirus with distinctive properties was found widely distributed in Shewa and Welega Provinces. The virus, tentatively designated Ethiopian pepper mottle virus (EPMV), was shown to have an unusually narrow experimental host range and filamentous particles about 700–750 nm in length, and to be nonpersis-tently transmitted by aphids but not transmissible through pepper seeds. Cucumber mosaic virus was detected in some locations, but appeared to be of minor significance.     

Apical Shoot Meristem Culture in Red Pepper (Capsicum annuum L.)

A protocol has been developed to obtain whole plants from apical shoot meristems of red pepper (Capsicum annuum L. cv. Bhivapuri), susceptible to viral infections. The meristems (～ 0.8 mm long), from aseptically grown seedlings (one-month-old), cultured on filter paper bridge in liquid Murashige and Skoog medium supplemented with 2 mg/l benzylaminopurine produced multiple shoots (5–7 per explant). The differentiated shoots developed further upon transfer to agar-solidified medium. Complete plantlets were obtained after rooting of shoots on MS medium fortified with 1 mg/l naphthaleneacetic acid.     

高温干旱对不同品种辣椒生长及呼吸作用的影响

研究了高温干旱胁迫对不同品种辣椒生长及呼吸作用的影响。结果表明,高温胁迫对正椒13号的生长无影响,对鸡爪×吉林的生长稍有抑制;干旱及高温干旱严重地抑制了辣椒的生长。干旱导致叶片相对电导率的增加高于高温,而高温加剧了干旱伤害程度,并且对鸡爪×吉林的伤害更大。高温处理引起了辣椒总呼吸、细胞色素呼吸和交替呼吸的增加。干旱胁迫抑制了细胞色素呼吸,但诱导了交替呼吸的增强;高温干旱共同胁迫加剧了总呼吸和细胞色素呼吸的下降,交替呼吸只在胁迫第一天被促进,随后立即下降。高温、干旱和高温干旱胁迫下正椒13号表现出了较鸡爪×吉林更强的交替呼吸和总呼吸。说明高温、干旱和高温干旱胁迫下辣椒保持较高的总呼吸和交替呼吸与其抗高温和/或干旱能力相关。     

Tapetum Dimorphism and Its Histochemical Study in Sweet Pepper (Capsicum annuum L. Var. grossum)

In sweet pepper, the portion of tapetum toward the interior of the anther comprising large cells is derived from cells of connective of anther whereas the remaining tapetum on the outside of the anther comprising comparatively small cells is derived from the parietal layer. Those ceils of the former prosessing large vacuoles and large nuclei are stained weaker than the cells of the latter by methyl green-pyronin and mercuric-bromophenol blue staining. Large spherical grains which contain acid phosphatase appear in the vacuoles in both kinds of tapetum at sporogenesis stage. During meiosis of pollen mother cells, DNA, RNA and protein sysntheses increase in tapetum. The tapetum derived from connective accumulates more DNA than that derived from parietal layer. The activity of acid phosphatase becomes higher in tapetum when it degenerates. The degeneration of two kinds of tapetum is similar. There are no starch grains in tapetum through its whole course of development.     

甜椒胞质雄性不育雄配子发育的解剖学和超微结构研究

运用石蜡切片和电子显微镜超薄切片方法观察了甜椒(Capsicum annuum L．)细胞质雄性不育系8A和保持系8B雄配子发育过程。结果表明：不育系和保持系都能正常进行减数分裂,绒毡层细胞无明显差异,形成了正常的四分孢子。在四分体单核居中期后,不育系的绒毡层细胞异常膨大并伸进药室,挤压花粉粒,同时绒毡层细胞提前降解,不育系单核晚期花粉粒开始崩出内含物。致使不育系的雄配子在双核花粉粒形成之前就完全裂解,不能发育成正常的花粉粒。此外,超薄切片还观察到不育系花粉粒在单核早期绒毡层细胞线粒体空泡化,这种变化表明雄性不育的遗传缺陷包括在花药发育早期发生的线粒体结构变化。     

Changes in Fructose 2,6-Bisphosphate Levels in Green Pepper (Capsicum annuum L.) Fruit in Response to Temperature

The regulatory metabolite, fructose 2,6-bisphosphate (Fru 2,6-P₂) was found in green pepper (Capsicum annuum L.). The Fru 2,6-P₂ level was found to: (a) rise rapidly in response to heat; (b) drop rapidly, followed by recovery, in response to cold storage of fruit and, (c) oscillate during cold storage of fruit. The possible existence of a relationship between chilling injury and Fru 2,6-P₂ is considered.     

辣椒优良自交系间遗传差异的分子分析

作物自交系间遗传差异的分析与评价是杂种优势育种和杂交育种成功的基础。鲜食尖椒类(Capsicum an-nuumvar.longum)品种是我国辣椒生产的主要品种类型之一。针对我国鲜食尖椒的育种目标,以国内外10份尖椒优良自交系为材料,利用相关序列扩增多态性(SRAP)和简单序列重复(SSR)标记技术对其进行了遗传差异分析。结果显示:SRAP技术具有较高的位点和多态性检测能力,平均每次检测的位点数和多态性位点数分别为34个和10个,是SSR的10倍和5倍;辣椒自交系间基于SRAP标记的遗传距离和基于SSR标记的遗传距离之间的相关程度较低(r=0.144);基于SRAP标记和SSR标记联合数据计算的遗传距离,10个尖椒自交系被分为3大类,这种分类结果与辣椒杂种优势育种实践相一致。本研究结果表明,SRAP具有较高的遗传分析效力;基于不同分子标记遗传分析结果的差异与标记间共享位点的多少有关;10个尖椒自交系的分类结果可用于指导育种实践。     

聚乙二醇、赤霉素、磷酸氢二钾和低温处理种子后的甜椒幼苗生长

聚乙二醇(PEG)、KH2PO4、赤霉素(GA3)和低温处理可以不同程度上提高甜椒二叶一心、四叶一心和六叶一心期的壮苗指数、根系活力、根系吸收面积和叶绿素含量,改善甜椒幼苗的生长;甜椒壮苗指数、根系活力和根系活跃吸收面积与种子活力指数相关性显著,种子活力指数与甜椒苗龄的相关性大小依次为:二叶一心＞六叶一心＞四叶一心期.     

辣椒净光合速率Hayman双列杂交分析

用辣椒(Capsicum annuum L.)6个亲本,按(1/2)n(n-1)双列杂交法配制15个杂交组合,用Hayman双列杂交分析法估算不同开花结果时期净光合速率的遗传参数。阵列协方差(Wr)对阵列方差(Vr)的回归分析结果表明,辣椒开花结果前期、中期、后期净光合速率的遗传都不符合“加性-显性”模型。Wr Vr与亲本Yr间的相关分析表明含有更多高净光合速率,显性基因的亲本具有较大的Wr Vr值。遗传参数估算表明开花结果时期的净光合速率遗传是显性效应比加性效应更加重要,同时还存在显著上位性效应。狭义遗传力较小,开花结果中、后期杂种优势比前期明显。     

In Vivo and In Vitro Formation of Dihydrocapsaicin in Sweet Pepper Fruits,Capsicum annuum L. var. grossum

Dihydrocapsaicin, one of pungent principles in Capsicum fruits, was formed and accumulated in sweet pepper fruits after 6 days’ post-harvest ripening under continuous light in a medium containing vanillylamine and isocapric acid. No capsaicinoids were formed in sweet pepper fruits ripened in the dark even in the presence of both vanillylamine and isocapric acid. The capsaicinoid newly formed during the ripening was almost exclusively dihydrocapsaicin, as much as 92.8% of the total capsaicinoids. Dihydrocapsaicin was also formed by cell-free extracts prepared from the sweet pepper fruits in a reaction mixture containing vanillylamine and isocapric acid. Dihydrocapsaicin formed was quantified by TLC, GLC, GC-MS and MF.     

辣椒果实性状的遗传分析

以6个辣椒品种并按(1/2)n(n-1)双列杂交法配制的15个杂交组合为材料,根据Hayman分析法估算了辣椒果实5个性状的遗传模型和遗传参数。结果显示,果长、果肉厚和结果数的遗传符合“加性-显性”模型,果宽和单果质量不符合“加性-显性”模型,还存在显著上位性效应。遗传参数估算表明,5个果实性状遗传是以加性效应为主,但不同果实性状显性效应有较大的差异,果肉厚的显性效应最大,其次是果长和结果数,果宽和单果质量最小。     

Effects of Low Oxygen on Photosynthesis, Translocation and Growth in Green Pepper (Capsicum annuum)

Green pepper (Capsicum annuum cv. Bell Boy) plants were exposedin chambers to low (2%) oxygen and controlled carbon dioxideconcentrations. Vegetative and fruiting plants showed short-termincreases in net photosynthesis in low oxygen or elevated carbondioxide (up to 900 µl CO₂ l^–1). Photosynthesis ofyoung vegetative plants increased in low oxygen in the short-termbut there was no long-term benefit. Low oxygen enhancement ofphotosynthesis declined with time and after 10 d, leaf areaand root dry weight were less than in plants grown in normalair. Labelled assimilates were translocated from leaves to otherregions at similar rates in low oxygen and normal air. Low oxygenreduced respiratory losses from leaves and reduced the proportionof soluble carbohydrate converted to polysaccharide in all plantparts. Thus, low-oxygen environments decrease the utilisationof assimilates which then may lead to inhibition of photosynthesis. Capsicum annuum, photosynthesis, photorespiration, translocation, utilization of assimilates     

Regulation of Carbon Partitioning in Source and Sink Leaf Parts in Sweet Pepper (Capsicum annuum L.) Plants : Role of Fructose 2,6-Bisphosphate

Area expansion rate, partitioning of photosynthetically fixed carbon, and levels of fructose 2,6-bisphosphate (fru-2,6-P₂) were determined in individual parts of developing leaves of sweet pepper (Capsicum annuum L.). The base was rapidly expanding and allocated less carbon to sucrose synthesis in comparison to the leaf tip, where expansion had almost stopped. The change in leaf expansion rate and carbon partitioning happened gradually. During day time levels of fru-2,6-P₂ were consistently higher in the leaf base than in the leaf tip. Leaf expansion rate and carbon partitioning were closely related to day time levels of fru-2,6-P₂, suggesting that fru-2,6-P₂ is an important factor in adjustment of metabolism during sink-to-source transition of leaf tissue. The levels of fru-2,6-P₂ changed markedly after a dark-to-light transition in the leaf base, but not in the leaf tip, suggesting that regulatory systems based on fru-2,6-P₂ are different in sink and source leaf tissue. During the period upon dark-to-light transition the variations in level of fru-2,6-P₂ did not show a close correlation to changes in the carbon partitioning, until the metabolism had reached a steady state.     

CaMYC,A Novel Transcription Factor,Regulates Anthocyanin Biosynthesis in Color-leaved Pepper (Capsicum annuum L.)

Journal of Plant Growth Regulation - Anthocyanins are secondary metabolites derived from the general phenylpropanoid pathway and are widespread throughout the plant kingdom. Anthocyanin...     

辣椒细胞质雄性不育系的3种同工酶分析

以辣椒细胞质雄性不育系21A及其同核异质保持系21B为试验材料,比较分析两系雄配子发育过程中酯酶（EST）、谷氨酸脱氢酶（GDH）和苹果酸脱氢酶（MDH）同工酶的表达特征。结果表明：幼叶和花蕾的EST同工酶酶谱在谱带数目和酶带强弱上存在时空表达差异,并且随着雄配子发育的进行,保持系21B从中花蕾至特大花蕾比不育系21A多1条清晰的谱带（EST3e）,其差异表达发生在细胞学上观察到的败育时期之前;在GDH同工酶中,保持系21B从大花蕾至特大花蕾比不育系多6条谱带（GDH,和GDH1／2）,酶谱差异表达时期与细胞学上观察到的败育时期一致;而在MDH同工酶中,不育系21A和保持系21B的幼叶和各级花蕾的酶谱在谱带数目和谱带强弱上均没有明显差异。