Venturia inaequalis Resistance in Apple

Apple scab caused by Venturia inaequalis has evoked the interest for quite different reasons of scientists, agronomists, producers and consumers since over a century. Consumers select spotless apples, producers want to avoid damage, agronomists are asked to develop and implement control measures mostly based on fungicides, scientists are challenged to find cheaper and less questioned control measures. Under these premises a high number of publications have appeared dealing with almost all aspects of the interaction V. inaequalis-Malus. This review considers the advances of the past 10 years due to new genetic tools. It tries to reevaluate and value earlier works. The complex genetic of scab resistance in Malus is viewed in the context of single resistance genes, QTLs and functional interactions at molecular level. Consequences for breeding and for the creation of genetically modified apples are discussed.     

Breeding for the Digenic Apple Resistance to Scab

The results of the apple breeding for digenic resistance to scab (1979–2000), which is more long-term than the monogenic breeding, have been reviewed. The hybrid seeds obtained from the reciprocal crossing between the V _f and V _m resistance gene donors served as the original material. The seed progeny yielded by backcrosses between these hybrids and the susceptible cultivars were examined (age—first true leaves) using inoculation in a greenhouse. The following criteria were proposed for breeding parental forms and the cultivars of the V _f v _f V _m v _m genotype: (1) phenotype segregation in the progeny of three resistant: one susceptible seedling and (2) the presence in the progeny of two types of resistant seedlings: those with the class 1 resistance (points and spots—hypersensitivity) typical of the V _m gene and those with the class 2–3 resistance (chlorotic and necrotic spots) typical of the V _f gene.     

基于代谢组学技术的植物抗病相关代谢物研究进展

植物受到病原真菌侵染时往往通过调节体内代谢物的产生来增强自身抗性,代谢组学技术是研究植物抗病相关代谢物的重要工具。指认植物抗病相关代谢物不仅利于深入探讨其抗病机制,还可与其他组学技术结合,辅助抗性品种鉴定和抗病品种培育。该研究对近年来国内外有关基于代谢组学技术指认植物抗病相关代谢物的流程、已发现的抗病相关代谢物及其作用机制的研究进展进行综述,并探讨了目前应用代谢组学技术研究植物抗病相关代谢物过程中面临的挑战。     

Phenotypic Reaction and Genetic Analysis Using AFLP-derived SCARs for Resistance to Apple Scab

Six sequence‐characterized amplified region (SCAR) markers linked to the apple scab resistance gene Vf were evaluated for their utility in marker‐assisted selection (MAS) in apple breeding. Of the six SCARs used in this study, ACS‐6 was located left of the Vf gene, ACS‐7 and ACS‐9 co‐segregated with Vf, and ACS‐8, ACS‐4, ACS‐5 were located right of the Vf gene. Three families derived from crosses between scab‐resistant and scab‐susceptible cultivars, including ‘Liberty’ × ‘Deljub’, ‘Liberty’ × ‘Delcorf’, and ‘Florina’ בDelcorf’, previously screened for scab resistance following greenhouse inoculation with the fungal pathogen Venturia inaequalis, were genotyped and compared with phenotypic reactions to scab infection in the field. For each family, a subset progeny of 30 seedlings (propagated onto Malling 9 rootstock and of 7 years old) was selected based on fungal sporulation according to the following scheme. Ten seedlings with no visible scab sporulation on leaves were given phenotypic scores of 0 (deemed resistant); 10 seedlings with moderate scab sporulation were given phenotypic scores of 1.0 (deemed moderately resistant); and 10 seedlings with heavy sporulation were given phenotypic scores of 2.0 (deemed susceptible). DNA was isolated from leaf tissue collected from all 90 seedlings, parents and Malus floribunda 821, the original source of the Vf gene, and screened with all six SCARs. All six SCARs were present in the two scab‐resistant parents, ‘Liberty’ and ‘Florina’, and M. floribunda 821; while, the two scab‐susceptible parents, ‘Deljub’ and ‘Delcorf’, lacked all SCARs. All SCARs were either present or absent in varying numbers of seedlings in each progeny with phenotypic ratings of either 0 (resistant) or 1.0 (moderately resistant); while all seedlings with phenotypic ratings of 2.0 (susceptible) lacked all SCARs. The inconsistencies between phenotypic scab ratings and SCAR marker data are discussed.     

宠物抗病育种

宠物的抗病育种研究具有重要的意义,本文对开展抗病育种的必要性、宠物免疫抗病系统、疾病抗性遗传机制、免疫反应的遗传控制、宠物抗病常规育种、宠物抗病分子育种以及抗病育种方法的现状、存在的问题、展望进行了介绍。说明了对疾病抗性的选择有一个坚实基础。抗病育种是控制疾病的有效方法,应用前景美好。     

甘薯抗线虫病的遗传育种研究

甘薯线虫病是危害甘薯的主要病害,危害甘薯的线虫种类主要是根结线虫和茎线虫.甘薯生产上主要采用综合防治方法进行防治,其中选育抗病品种最为经济有效.本文综述了根结线虫和茎线虫病的抗源筛选、抗性机制、抗性的遗传和抗病育种等方面的研究进展,并展望了甘薯抗线虫病育种.     

Disentangling Human Tolerance and Resistance Against HIV

In ecology, “disease tolerance” is defined as an evolutionary strategy of hosts against pathogens, characterized by reduced or absent pathogenesis despite high pathogen load. To our knowledge, tolerance has to date not been quantified and disentangled from host resistance to disease in any clinically relevant human infection. Using data from the Swiss HIV Cohort Study, we investigated if there is variation in tolerance to HIV in humans and if this variation is associated with polymorphisms in the human genome. In particular, we tested for associations between tolerance and alleles of the Human Leukocyte Antigen (HLA) genes, the CC chemokine receptor 5 (CCR5), the age at which individuals were infected, and their sex. We found that HLA-B alleles associated with better HIV control do not confer tolerance. The slower disease progression associated with these alleles can be fully attributed to the extent of viral load reduction in carriers. However, we observed that tolerance significantly varies across HLA-B genotypes with a relative standard deviation of 34%. Furthermore, we found that HLA-B homozygotes are less tolerant than heterozygotes. Lastly, tolerance was observed to decrease with age, resulting in a 1.7-fold difference in disease progression between 20 and 60-y-old individuals with the same viral load. Thus, disease tolerance is a feature of infection with HIV, and the identification of the mechanisms involved may pave the way to a better understanding of pathogenesis.     

分子标记技术在苹果育种中的应用

DNA分子标记是现代分子生物学发展出来的一类重要的遗传标记,已广泛应用于遗传图谱的构建、种质资源的管理和鉴定、基因的定位与克隆等。综述了分子标记在苹果育种中的应用。     

Virus Resistance in Cereals: Sources of Resistance, Genetics and Breeding

In cereals, soil-borne viruses transmitted by the plasmodiophorid Polymyxa graminis (e.g., Barley mild mosaic virus , Barley yellow mosaic virus or Soil-borne cereal mosaic virus ), have increased in importance due to the increase of the acreage infested and because yield losses cannot be prevented by chemical measures. Due to global warming, it is also expected that insect transmitted viruses vectored by aphids (e.g., Barley yellow dwarf virus , Cereal yellow dwarf virus ), leafhoppers ( Wheat dwarf virus ) or mites (e.g., Wheat streak mosaic virus ), will become much more important even in cooler regions. The environmentally most sound and also most cost effective approach to prevent high yield losses caused by these viruses is breeding for resistance. Therefore, in contrast to other reviews on cereal viruses, this study briefly reviews present knowledge on cereal-infecting viruses and emphasizes especially the sources of resistance or tolerance to these viruses and their use in molecular breeding schemes.     

苹果遗传转化的研究进展

苹果的遗传转化技术通过分子手段改良苹果,有助于缩短其育种周期。最近十年,在该领域的研究取得很大进展,涉及到一些重要的苹果基因型及有用的外源基因。迄今,苹果的遗传转化主要采用农杆菌介导法,侵染与转化材料的再生是影响其转化效率的关键过程,了解其影响因素,寻找有利因素以提高转化效率是目前苹果遗传转化研究的重点。     

Breeding Plants for Resistance to Nematodes

Plant breeders and nematologists have developed improved cultivars of important crop species with resistance to plant-parasitic nematodes. The effectiveness of these breeding efforts has depended on the availability of efficient screening procedures, identification of adequate sources of durable resistance, nature of the nematode feeding habit, and knowledge of the inheritance of resistance. These factors determine to a large degree the breeding method and potential success of the research. Systematic searches for nematode resistance have identified resistant germplasm lines within crop species or from related species. When the resistance gene(s) is from related species, incongruity barriers or sterility of the resulting hybrids often must be overcome. In these situations, backcrossing is usually necessary to incorporate the resistance gene(s) and recover the desirable commercial traits of the crop species. If the resistance gene(s) is present within the crop species, the choice of breeding method depends on the inheritance of the resistance, type of screening procedure, and other important breeding objectives for the species. In the future, plant molecular biologists and geneticists will make available novel sources of nematode resistance through incorporation of transgenes from other genera. These efforts will likely require conventional breeding strategies before commercial utilization of an improved resistant cultivar.     

水稻抗性基因定位及相关分子标记研究进展

水稻是一种重要的粮食作物。而选育高抗性良种是有效防治病虫的危害,增加水稻单位面积产量的一项关键措施。了解水稻本身抗性的遗传信息是进行抗性育种的基础。现代生物技术的发展为抗性育种提供了新途径。本文较系统地概述了水稻对稻瘟病、白叶枯病、稻飞虱、稻叶蝉抗性基因定位及相关分子标记研究的最新发展,为利用分子标记进行水稻抗性育种及抗性基因克隆提供参考文献。     

Phenolic Compounds of Apple and their Relationship to Scab Resistance

The contents of 15 different phenolic compounds in apple leaves and fruit skin from various orchards were determined by HPLC. High concentrations of flavan-3-ols were found in those orchards which were not infected by Venturia inaequalis . This observation corroborates earlier findings on different cultivars. The hypothesis that these compounds could be involved in the resistance of apple to scab was tested by inhibiting the key enzyme of the phenol biosynthesis, the phenylalanine-ammonia-lyase, in young shoots of the resistant genotype 'Sir Prize'. After inoculation of the inhibitor-treated leaves, severe symptoms of the disease occurred. The fungal infection was confirmed by histological studies. No flavonal-accumulation could be observed at the infection site which was the case in the non-inhibited but inoculated controls.     

棉花miR397 LAC4模块调控棉铃虫抗性研究

miRNA(microRNA)通过调控其靶标基因在植物的生长、发育和抗逆过程中扮演着重要的角色。该研究采用分子生物学和生物化学等方法,探讨棉花miR397 LAC4参与植株木质素生物合成和对棉铃虫抗性响应机制。结果发现：(1)棉花miR397(ghr miR397)在转录后调控漆酶基因(GhLAC4)的表达,GhLAC4属于蓝铜氧化酶家族,通过调控木质素合成,抵御棉铃虫入侵棉花。(2)GUS报告基因融合表达和酶活性测定表明,ghr miR397在转录后切割靶标基因GhLAC4抑制其表达。(3)利用VIGS(virus induced gene silencing)技术在棉花中沉默和过表达ghr miR397,棉铃虫抗性检测分析表明,沉默miR397表达会增加棉花对棉铃虫的抗性,但过表达ghr miR397则会降低棉花的抗性。(4)选择性和非选择性棉铃虫实验分析、组织化学染色和木质素含量测定表明,沉默GhLAC4表达会减少木质素的积累,增加棉花对棉铃虫的敏感性。研究表明,ghr miR397 GhLAC4模块共同微调棉花木质素合成来参与棉花抗虫性调控,同时也为棉花抗虫育种提供了新思路。     

人工诱变技术在植物抗病育种中的应用(综述)

介绍人工诱变技术在植物抗病育种中的主要成就,并探讨其发展方向及前景。人工诱变技术与杂交育种、基因转移及离体筛选等手段相结合,提高了育种效率,拓宽了抗病育种的范围。该技术在植物抗病育种中的成功应用,将有利于培育植物抗病新品种,促进农业的增产增收及可持续发展。     

Relationship Between Growth, Secondary Metabolism, and Resistance of Apple

Abstract: The paper shows that N-induced vigorous shoot growth increases susceptibility of apple trees to Venturia inaequalis. This is due to a weakened defence in infected leaves of the high N cultures showing large lesions with excessive sporulation, whereas infected leaves from the low N cultures exhibited successful defence with only small chlorotic lesions and no sporulation. This might be explained by biosynthesis of phenylpropanoids in the young leaves of the resistant trees. A negative correlation between shoot growth of apple trees and the concentration of phenolic compounds in young leaves was found. Studies on in vitro shoot cultures revealed that the availability of sugars for the phenylpropanoid pathway is a strong regulatory factor. The ratio of sucrose and nitrogen in the medium influenced the total level of secondary products in the in vitro grown plantlets. Moreover, the relative deficiency of sugars was responsible for a metabolic block mainly at the level of glucosyl transferase and concomitant aglycone accumulation.     

甜菜胞囊线虫抗性基因及遗传工程改良策略

甜菜胞囊线虫(Heterodera schachtii)是甜菜的重要病害之一,给甜菜生产造成了极大的损失。随着分子生物学和遗传工程技术的发展,采用遗传工程改良策略进行甜菜抗性品种选育是甜菜胞囊线虫防治中最经济、有效的方法。介绍了甜菜胞囊线虫的生育史及抗性机制,综述了甜菜胞囊线虫抗性基因的克隆和鉴定研究进展及甜菜胞囊线虫抗性育种的遗传工程改良策略,并提出今后甜菜胞囊线虫抗性育种的展望。     

植物抗病遗传育种中的QTL定位和克隆(综述)

对植物抗病遗传育种中QTL定位与克隆研究进行综述。主要阐述了数量抗性的遗传学基础、作物抗病性QTL的定位作图、QTL作图的可靠性及应对措施、QTLs候选基因的证实和定位克隆等,并对植物抗病遗传育种未来的研究方向予以讨论。     

Variations in Cold Resistance among Apple Cultivars during Deacclimation

Coleman, W. K. 1985. Variations in cold resistance among applecultivars during deacclimation.——J. exp. Bot. 36:1159–1171. One-year-old vegetative twig samples from mature, bearing treesof nine apple cultivars were monitored over two years for theirdormancy intensity and relative cold hardiness levels duringthe winter/spring deacclimation period. The apple cultivarsexhibited a consistent response during the dehardening processwhich included a higher initiation temperature for the low temperatureexotherm (LT₂) and the development of an intermediate freezingexotherm (LT₁.). Imperial Red Mac/Antonovka was the hardiestcultivar during the two-year period while Imperial Red Mac/M.111was the most tender. Cortland/Beautiful Arcade and Rogers RedMac/M.111 varied considerably in their relative hardiness responsesfrom year to year. Mid-winter hardiness levels were significantlyand positively correlated with dormancy intensity in the ninecultivars. However, this relationship did not exist when thehardiness indices for late winter or early spring were comparedwith dormancy intensity. An intensive correlation and path analysisof the response of four cultivars (Jersey Mac/M.111, Vista Bella/M.111,Spur Mac/M.111 and Rogers Red Mac/M.111) to previous maximum/minimumair temperatures indicated that past maximum temperature primarilyaffected LT₂ while past minimum temperature affected LT₁. Whenlinear regression equations were fitted to the data, the meanair temperature of 0°C coincided with LT₁ values of —18 °C and LT₂ values of –36°C to –38°Cfor all four cultivars. Correlation analyses between % moisturecontent and LT₁/LT₂ for the four cultivars were often positivebut generally non-significant. Injury in living cells slightlypreceded the initiation temperature of LT₁ and supports theidea that membrane destabilization may be an important and immediateprecursor to intracellular freezing. Key words: Apple, cold hardiness, deacclimation