Comparative genome-wide segregation analysis and map construction using a reciprocal cross design to facilitate citrus germplasm utilization

Citrus genetic resources are rich but underutilized in breeding because their complex reproductive biology and the scarceness of inheritance studies on agronomic traits. Here, we investigated the genomic distribution of segregation distortion regions, the inheritance of organelle DNA and colinearity between scion citrus linkage maps by using a reciprocal cross design. The parents were Fortune, a hybrid mandarin from C. clementina, and Chandler, a hybrid pummelo from C. grandis that largely differ in fruit size, taste and colour. The inheritance of organelle DNA was studied in 201 hybrids by using four organelle DNA markers, and the linkage maps were based on 174 of those hybrids. Around ten percent of the seedlings derived from the pummelo as female parent showed the same organelle markers as those of the mandarin, indicating a possible exception to their expected maternal inheritance in citrus. Most segregation distortion affects just the allele frequencies, generally representing differences in pollen fertilization success, as a likely consequence of the presence of gametal factors affecting the functionality of gametes and pollen-pistil interactions. The large extension of colinearity found when comparing the C. grandis and C. clementina linkage maps to those previously reported for rootstock species (C. aurantium and P. trifoliata), will be helpful to infer the position of orthologous genes and QTLs in citrus species and for a more useful genetic characterization of citrus germplasm collections.     

Expressed sequence enrichment for candidate gene analysis of citrus tristeza virus resistance

Several studies have reported markers linked to a putative resistance gene from Poncirus trifoliata (Ctv-R) located at linkage group 4 that confers resistance against one of the most important citrus pathogens, citrus tristeza virus (CTV). To be successful in both marker-assisted selection and transformation experiments, its accurate mapping is needed. Several factors may affect its localization, among them two are considered here: the definition of resistance and the genetic background of progeny.Two progenies derived from P. trifoliata, by self-pollination and by crossing with sour orange (Citrus aurantium), a citrus rootstock well-adapted to arid and semi-arid areas, were used for linkage group-4 marker enrichment. Two new methodologies were used to enrich this region with expressed sequences. The enrichment of group 4 resulted in the fusion of several C. aurantium linkage groups. The new one A(7+3+4) is now saturated with 48 markers including expressed sequences. Surprisingly, sour orange was as resistant to the CTV isolate tested as was P. trifoliata, and three hybrids that carry Ctv-R, as deduced from its flanking markers, are susceptible to CTV. The new linkage maps were used to map Ctv-R under the hypothesis of monogenic inheritance. Its position on linkage group 4 of P. trifoliata differs from the location previously reported in other progenies. The genetic analysis of virus-plant interaction in the family derived from C. aurantium after a CTV chronic infection showed the segregation of five types of interaction, which is not compatible with the hypothesis of a single gene controlling resistance. Two major issues are discussed: another type of genetic analysis of CTV resistance is needed to avoid the assumption of monogenic inheritance, and transferring Ctv-R from P. trifoliata to sour orange might not avoid the CTV decline of sweet orange trees.Communicated by C. Möllers     

QTL analysis of citrus tristeza virus-citradia interaction

Citrus tristeza virus (CTV) has caused the death of millions of trees grafted on sour orange (Citrus aurantium). However, this rootstock is very well adapted to the Mediterranean, semi-arid conditions. The aim of the present research is to genetically analyze the accumulation of CTV in a progeny derived from the cross between C. aurantium and Poncirus trifoliata, both resistant to CTV isolate T-346. Graft propagation of 104 hybrids was done on healthy sweet orange as a rootstock. Three months later, each rootstock was graft inoculated with two patches of infected tissue (isolate T-346). One, 2, and sometimes, 3 and 4 years after inoculation, hybrids and infected patches were tested for CTV by tissue-blot immuno-assay. Additionally, CTV multiplication was evaluated every year as the optical density of double-antibody sandwich enzyme-linked immuno-sorbent assay reactions. Linkage maps for P. trifoliata based on 63 markers, and for C. aurantium based on 157 markers, were used. Most molecular markers were microsatellites and IRAP (inter-retrotransposon amplified polymorphisms). Some analogues of resistance and expressed sequences were also included for candidate gene analysis.Resistance against CTV was analyzed as a quantitative trait (CTV accumulation) by QTL (quantitative trait loci) analysis to avoid the assumption of monogenic control. Three major resistance QTLs were detected where the P. trifoliata resistance gene, Ctv-R, had been previously located in other progenies. Up to five minor QTLs were detected (Ctv-A ₁ to Ctv-A ₅ ). A significant epistatic interaction involving Ctv-R ₁ and Ctv-A ₁ was also found. An analogue of a resistance gene is a candidate for Ctv-A ₃ , and two expressed sequences are candidates for Ctv-A ₁ and Ctv-A ₅ . Single-strand conformational polymorphism analysis of CTV genes QTL P20 and P25 (coat protein) in susceptible hybrids, was carried out to test whether or not any QTL accumulation was a defeated resistance gene. Since the same haplotype of the virus was visualized independently on the CTV titer, differences in the amount of virions are not explained through the selection of CTV genotypes by the host, but through differences among citradias in CTV replication and/or movement.Communicated by C. Möllers     

Efficient search for new resistant genotypes to the citrus tristeza closterovirus in the orange subfamily Aurantioideae

 Virulent isolates of the citrus tristeza virus (CTV) are continuously arising and their spread threatens the world citrus industry. Methods for effective utilization of material conserved in germplasm banks are needed in plant improvement. Two objectives are pursued in the present paper: a search for new CTV-resistant genotypes and tests of two strategies for this search. One of these tests is based on a study of genetic relationships among genera and species of the orange subfamily and the other on scores of molecular markers known to be linked to the CTV-resistant locus. Sampled plants were graft-inoculated with a mild CTV isolate (T-346) and two virulent ones (T-388 and T-305). Susceptible plants were those where CTV multiplication was detected beyond 4 months after inoculation. All cultivars of Poncirus trifoliata tested, as well as Severinia buxifolia and Atalantia ceylanica, were resistant to the three CTV isolates; Fortunella crassifolia (Meiwa kumquat) resists two of them. The finding of CTV resistance in this species, closely related to cultivated Citrus species, opens a new arena for CTV-resistance improvement of oranges and mandarines by sexual hybridization. The searching strategy based on phylogenetic data has been successful, whereas the other one may be worthwhile only when the search is restricted to the species where linkage analysis is available. A good documentation system that allows quick sampling of accessions to build up core collections and where the location of new and useful genes could be easily worked out, is suggested to enhance germplasm utilization. Received: 27 April 1997 / Accepted: 5 June 1997     

Genetic analysis of citrus leafminer susceptibility

Damage caused by the citrus leafminer (CLM), Phyllocnistis citrella, is highly dependent on the citrus flushing pattern. Chemical control is only required in young trees, both in nurseries and in newly established orchards. However, this situation is completely different in countries where the causal agent of citrus canker, the bacterium Xanthomonas axonopodis pv. citri exists. CLM infestation results in a higher incidence of citrus canker infection. Among preventive control strategies that provide environmentally sound and sustainable solutions, resistant or tolerant varieties remain the most economical means of insect control. The objective of the present study is to genetically analyse the resistance/susceptibility to CLM and two other traits that might be related, the deciduous behaviour and leaf area of the tree, in a progeny of citradias derived from the cross between two species with different CLM susceptibility—C. aurantium L. and Poncirus trifoliata—using linkage maps of each parent that include several resistance gene analogues. We detected two antibiosis and six antixenosis putative quantitative trait loci (QTLs) in a random sample of forty-two of those citradias. An important antibiosis QTL (R²=18.8–26.7%) affecting both percentage of infested leaves and number of pupal casts per leaf has been detected in P. trifoliata linkage group Pa7, which is in agreement with the CLM antibiotic character shown by this species, and independent from any segregating QTL involved in its deciduous behaviour. The maximum value for the Kruskal-Wallis statistic of the other putative antibiosis QTL coincides with marker S2-AS4_800 in sour orange linkage map. Given that the sequence of this marker is highly similar to several nucleotide binding site-leucine-rich repeat (NBS-LRR)-type resistance genes, it might be considered as a candidate gene for insect resistance in citrus.     

Quantitative trait loci analysis of morphological traits in Citrus

The objectives of this study were to understand the genetic basis of morphological variation observed in the genus Citrus and its relatives and to identify genomic regions associated with certain morphological traits using genetic linkage mapping and quantitative trait loci (QTLs) analysis with random amplified polymorphic DNA (RAPD) markers. First, a genetic linkage map was constructed with RAPD markers obtained by screening 98 progeny plants from a {Citrus grandis × [C. paradisi × Poncirus trifoliata]} × {[(C. paradisi × P. trifoliata) × C. reticulata] × [(C. paradisi × Poncirus trifoliata) × C. sinensis]} intergeneric cross. The map contains 69 RAPD markers distributed into nine linkage groups. Then, 17 different morphological traits, including six tree and two leaf characters of 98 progeny plants and six floral and three fruit characters of about half of the same progeny plants were evaluated for 2 years and statistically analyzed for variation. Statistical analysis of individual traits indicated that trunk diameter and growth, tree height, canopy width, tree vigor and growth, leaf length and width, petal and anther numbers, petal length and width, length of pistil and style, fruit length and diameter, and fruit segment number showed normal or close to normal distribution, suggesting that these traits may be inherited quantitatively. Quantitative data from the morphological traits were analyzed to detect markers and putative QTLs associated with these traits using interval mapping method. QTL analysis revealed 18 putative QTLs of LOD > 3.0 associated with 13 of the morphological traits analyzed. The putative QTLs were distributed in several different linkage groups, and QTLs associated with similar traits were mostly mapped to the same LG or similar locations in the linkage group, indicating that the same genomic region is involved in the inheritance of some of the morphological traits.     

Inheritance of citrus nematode resistance and its linkage with molecular markers

Eleven RAPD markers linked to a gene region conferring resistance to citrus nematodes in an intergen-eric backcross family were identified. Two sequence- characterized amplified region markers linked to a citrus tristeza virus resistance gene and one selected resistance gene candidate marker were evaluated for their association with citrus nematode resistance. A nematode-susceptible citrus hybrid, LB6-2 [Clementine mandarin (Citrus reticulata)×Hamlin orange (C. sinensis)], was crossed with the citrus nematode-resistant hybrid Swingle citrumelo (C. paradisi×Poncirus trifoliata) to produce 62 hybrids that were reproduced by rooted cuttings. The plants were grown in a greenhouse and inoculated with nematodes isolated from infected field trees. The hybrids segregated widely for this trait in a continuous distribution, suggesting possible polygenic control of the resistance. Bulked segregant analysis was used to identify markers associated with resistance by bulking DNA samples from individuals at the phenotypic distribution extremes. Linkage relationships were established by the inheritance of the markers in the entire population. A single major gene region that contributes to nematode resistance was identified. The resistance was inherited in this backcross family from the grandparent Poncirus trifoliata as a single dominant gene. QTL analysis revealed that 53.6% of the phenotypic variance was explained by this major gene region. The existence of other resistance-associated loci was suggested by the continuous phenotypic distribution and the fact that some moderately susceptible hybrids possessed the resistance-linked markers. The markers may be useful in citrus rootstock breeding programs if it can be demonstrated that they are valid in other genetic backgrounds. Received: 4 May 1999 / Accepted: 21 September 1999     

Citrus tristeza virus replicates and forms infectious virions in protoplasts of resistant citrus relatives

Citrus tristeza virus (CTV) is the most economically important viral disease of citrus worldwide. Cultivars with improved CTV tolerance or resistance are needed to manage CTV-induced diseases. The citrus relatives Poncirus trifoliata (L.) Raf., Swinglea glutinosa (Blanco) Merr., and Severinia buxifolia (Poir) Ten. are potential sources of CTV resistance, but their resistance mechanisms are poorly characterized. As a first step to examine the mechanisms of resistance to CTV in these citrus relatives and selected Citrus × Poncirus hybrids, it was necessary to develop methods for protoplast isolation and viral inoculation to allow examination of CTV multiplication in this range of citrus varieties and relatives. Leaf and/or cultured cell protoplasts were isolated and inoculated with four biologically distinct CTV isolates. Northern-blot hybridization analyses for progeny RNAs and immuno-electron microscopy assays for newly produced virions showed that CTV replicated and produced infectious particles in protoplasts from all of the resistant plants tested. These results suggest that resistance to CTV observed at the plant level results from a lack of virus movement and/or some induced resistance response, rather than lack of viral multiplication at the cellular level.     

In vitro organogenesis of Citrus volkameriana and Citrus aurantium

In vitro organogenesis of Citrus volkameriana and C. aurantium was studied considering three explant types: epicotyl segment, internodal segment, and hypocotyl segment with attached cotyledon fragment. The explants were cultured in medium according to Grosser and Gmitter (EME) supplemented with 0, 0.5, 1.0, 1.5, and 2.0 mg dm^{− 3} 6-benzyl-aminopurine (BAP), incubated firstly in darkness for 4 weeks, and then transferred to 16-h photoperiod for 2 weeks. Comparing epicotyl and internodal segments, a higher percentage of responsive explants and a higher number of shoots per explant were obtained with epicotyl segments, regardless of the BAP concentration. For C. volkameriana the highest percentage of responsive epicotyl segments (42 %) was obtained in EME with 1.0 mg dm⁻³ BAP, while for C. aurantium (59 %) in EME with 0.5 mg dm⁻³ BAP. The organogenesis efficiency was the best with the use of the hypocotyl segment with attached cotyledon fragment (77 % for C. volkameriana and to 75 % for C. aurantium). With this explant the morphogenesis occurred only in the hypocotyl region. The in vitro organogenesis was characterized by histological analyses showing that the morphogenic process started in the cambium region near the explant cut end.     

New gene(s) involved in the resistance of Poncirus trifoliata (L.) Raf. to citrus tristeza virus

 Citrus tristeza virus (CTV) causes important economic losses in the citrus industry worldwide. Resistance to CTV is present in Poncirus trifoliata and is known to be controlled by a dominant gene at the Ctr locus. Short-distance movement of CTV around the inoculum, as well as passive movement through the phloem vessels, were studied in segregant plants derived by self-pollination from P. trifoliata var. “Flying Dragon” in order to genetically analyze the mechanism of CTV resistance. Accumulation of CTV in the vicinity of the inoculum and in new flushes was studied by means of a direct tissue-blot immunoassay (DTBIA). CTV is able to passively move with the phloematic flux from inoculated resistant genotypes Ctr-Rr and Ctr-RR up to a susceptible scion cultivar (Ctr-rr). Differences regarding CTV accumulation around the inoculum were found among Ctr-Rr individuals of the progeny. Bulked segregant analysis identified five RAPD markers linked to a locus (Ctm), or a genomic region, involved in short-distance accumulation of CTV but located in a different linkage group from Ctr. This result indicates that Ctr is not the only locus responsible for resistance to CTV in P. trifoliata, and that at least one other gene is involved. Given that citrus is a perennial crop, breeding for durable disease resistance should take into account selection at both the Ctr and Ctm loci. Received : 13 March 1996 / Accepted : 18 April 1997     

沙田柚无机焦磷酸酶基因的cDNA克隆及序列分析

植物自交不亲和性是植物生殖过程中普遍存在的一种现象,是植物特异性识别并拒绝自身花粉或亲缘关系很相近的花粉的一种遗传机制。无机焦磷酸酶(inorganic pyrophosphatase,IPPase)在植物生长发育方面起重要作用。该研究根据沙田柚花柱消减文库中EST序列(无机焦磷酸酶基因内部片段),设计了2对特异引物5'-GSP1,5'-n GSP1,3'-GSP2 and 3'-n GSP2,通过SMART-RACE PCR技术从所构建的沙田柚花柱抑制性消减文库中克隆了沙田柚无机焦磷酸酶基因的c DNA全长序列,利用Blastn、DNAman和Expasy软件对所克隆的基因进行同源性分析,以及基因编码的氨基酸的分子量、等电点、疏水性等理化性质分析。结果表明:IPPase基因c DNA全长为1 136 bp(Gen Bank登录号为KF990474),开放阅读框(ORF)全长为654 bp,共编码217个氨基酸,包括170 bp 5'UTR和312 bp的3'UTR;编码的蛋白质的分子量为24.4 k Da,等电点为5.96;蛋白结构域分析显示沙田柚IPPase与焦磷酸酶具有相同的保守结构域;对沙田柚IPPase蛋白质序列进行疏水性分析,结果表明沙田柚IPPase基因编码的肽链中疏水性最大值约为3.21,最小值约为-2.98,属于亲水性蛋白,无跨膜区域;Blastn搜索的结果显示,沙田柚IPPase基因序列与多种植物的IPP基因高度同源;序列分析表明,沙田柚IPPase基因核苷酸的同源性与毛果杨(Populus trichocarpa)和橡胶树(Hevea brasiliensis)IPPase基因均为87%;氨基酸序列与克莱门柚(Citrus clementina)无机焦磷酸酶完全一致。该研究结果可为深入研究无机焦磷酸酶在沙田柚自交不亲和中的作用机理提供基础。     

Citrus somatic hybridization with potential for improved blight and CTV resistance

Summary The production of five new somatic hybrids with potential for improved disease resistance is reported herein. Protoplast isolation, fusion, and plant regeneration was achieved from Caipira sweet orange (Citrus sinensis L. Osbeck) as an embryogenic parental source and Volkamer lemon (C. volkameriana Pasquale), Cleopatra mandarin (C. reticulata Blanco), and Rough lemon (C. jambhiri Lushington) as non-embryogenic parental sources. Fusion involving Cleopatra mandarin and Rangpur lime (C. limonia L. Osbeck) as embryogenic parental sources with Sour orange (C. aurantium L.) also resulted in somatic hybrid plants. Somatic hybridization was confirmed by leaf morphology evaluation, chromosome counting, and randomly amplified polymorphic DNA (RAPD) analyses. Somatic hybrids may combine complementary characteristics from both parental sources and have potential for tolerance to blight and citrus tristeza virus (CTV).     

Segregation and linkage analyses in two complex populations derived from the citrus rootstock Cleopatra mandarin. Inheritance of seed reproductive traits

Two complex populations derived from the salt-tolerant citrus rootstock Cleopatra mandarin were used to investigate (1) the genomic regions affected by segregation distortion and (2) gene segregation heterogeneity and their causes and to obtain (3) a Citrus reshni linkage map to genetically analyze (4) the duration of the juvenility period and the seed embryony type. Both populations differed in the extent and origin of segregation distortion. The population derived from the cross between C. reshni and Poncirus trifoliata (R?×?Pr) showed 75?% of codominant markers with distorted segregation. The origin of this distortion was prezygotic in most cases. Meanwhile, 100?% of codominant markers in the self-pollinated population [F₂(R?×?Pr)] showed genotypic distortion, and the origin of such distortion was mostly postzygotic, with the heterozygote being the most frequent genotype in all cases. In the R?×?Pr population, where two pollinator varieties were used, allele segregation was significantly heterogeneous not only in P. trifoliata (28.6?% of markers) but also in C. reshni (19.5?%). The results on segregation heterogeneity in the F₂(R?×?Pr) suggest the presence at linkage group 4c of a postfertilization system of balanced lethal factors that reduces homozygosis in self-compatible hybrids. Four low to medium contributing quantitative trait loci (QTLs) were detected for the duration of juvenility period by both Kruskal?CWallis and interval mapping methodologies. For seed embryony type, three QTLs were detected by both methodologies, with the previously reported Apo2 being the QTL contributing the most. CR14,290 and TAA15 are good markers for early selection of polyembryonic rootstocks in progenies derived from C. reshni, Citrus aurantium, and Citrus volkameriana.     

Citrus rootstock responses to herbivory by larvae of the sugarcane rootstock borer weevil (Diaprepes abbreviatus)

The responses of roots to feeding by larvae of a citrus root weevil (Diaprepes abbreviatus) were investigated in Citrus grandis (L.) Osb. x Poncirus trifoliata (2N) (L.) Raf.; C. grandis x P. trifoliata (4N); P. trifoliata x C. grandis (Flying Dragon x Nakon); C. paradisi Macf. x P. trifoliata (Swingle citrumelo); C. aurantifolia (Christm.) Swingle (Citrus macrophylla); C. reticulata Blanco (Cleopatra mandarin); C. sinensis (L.) Osb. x P. trifoliata (Carrizo citrange); C. aurantium (L.) (sour orange). Chitinase, chitosanase. β-1,3-glucanase, peroxidase and lysozyme activities were measured and significant differences were observed for some of the cultivars between infested and uninfested rootstocks. Generally, increased activities were observed for chitinases and decreased activities were observed for the other enzymes measured. Numerous significant differences in hydrolase and peroxidase activities were observed between cultivars. Immunological detection revealed that new protein bands occurred in root protein extracts for six of the eight cultivars infested with larvae when an antibody to a class I potato leaf chitinase was used. Antibodies generated against two citrus chitinases of M_r 24 000 (basic chitinase cv. Valencia (C. sinensis) callus, BCVC) and M_r 28 000 (basic chitinase/lysozyme cv. Valencia callus, BCLVC) indicated that chitinases in Carrizo were induced in infested roots when the BCVC antibody was employed. These findings justify calling these proteins pathogenesis-related proteins. The chitinase that BCLVC was prepared from exhibited high lysozyme activities, and the results of western blots showed the presence of proteins at M_r 24 000 and 27 000 which are presumed to be lysozymes. Similar tests using antibodies against β-1, 3-glucanases and peroxidases indicated a diminution of protein bands that cross-reacted with infested root protein extracts compared with what occurred in controls. All of the root extracts were tested against chitosans with various percentages of acetylation; activities were linearly dependent on the amount of chitosan acetylation; i.e. the larger the amount of acetylation, the greater the activity. Significant differences in hydrolase activities were observed between infested and uninfested roots for the rootstocks using the variously acetylated substrates. All of the root protein extracts were capable of degrading peritrophic membranes removed from larvae of D. abbreviatus. This suggests that citrus chitinases may play a role in disrupting the peritrophic membrane such that ingested substances that pose a hazard to the insect may penetrate the membrane more easily.     

A localized linkage map of the citrus tristeza virus resistance gene region

A localized genetic linkage map was developed of the region surrounding the citrus tristeza virus (CTV) resistance gene (designated Ctv) from Poncirus trifoliate L., a sexually compatible Citrus relative. Bulked segregant analysis (BSA) was used to identify potential resistance-associated RAPD fragment markers in four intergeneric backcross families that were segregating for CTV resistance. Eight RAPD fragments were found that were consistently linked to Ctv in the four families. Map distances and locus order were determined with MAPMAKER 3.0, using the results obtained from 59 individuals in the largest family. Also, a consensus map was constructed with JOINMAP 1.3, using pooled results from the four backcross families. Marker orders were identical, except for 1 marker, on these independently developed maps. Family-specific resistance-associated markers were also identified, as were numerous susceptibility-associated markers. The identification of markers tightly linked to Ctv will enable citrus breeders to identify plants likely to be CTV-resistant by indirect, marker-assisted selection, rather than by labor-intensive direct challenge with the pathogen. These markers also provide a basis for future efforts to isolate Ctv for subsequent genetic manipulation.Florida Agricultural Experimental Station Journal Series No. R-04491     

Molecular markers flanking citrus tristeza virus resistance gene from Poncirus trifoliata (L.) Raf.

 Two segregating populations for citrus tristeza virus (CTV) resistance derived from Poncirus trifoliata var ‘Flying Dragon’ by self-pollination and pollination to Citrus medica L. var ethrog ‘Arizona’ were inoculated with a common CTV isolate. The presence of virus was checked by the Double Antibody Sandwich Enzyme-Linked Assay and Direct Tissue Blot Inmunoassay at 3, 6, and 12 months after inoculation. Seven RAPDs were found linked to the CTV resistance gene by bulked segregant analysis. The closest linked RAPDs were cloned to obtain linked codominant RFLPs and to increase the precision of the genetic distance estimation. The CTV resistance gene seems to be located between cW18 and cK16. Differences in genetic distances among progenies are large and can be explained by genome-wide reduction in the recombination of progeny derived from male versus female gametes. Received: 5 June 1996 / Accepted: 26 July 1996     

桉树杂交种对桉树枝瘿姬小蜂的抗性变异分析

植物种间杂交是一种普遍自然现象,杂交往往造成植物表型及生理变异,从而改变杂种抗虫性。与亲本种相比,杂种抗虫性可能增强或减弱,也有可能处于与亲本相似水平。初生、次生代谢物的质变与量变是引起杂种抗虫性变异的重要原因。近年来,桉树杂交育种已在世界范围内广泛应用并取得了显著成效,桉树杂交种间抗虫性表现参差不齐,因此,桉树是研究杂交种抗虫性变异机制的理想材料。以2个桉树杂交种巨细桉DH201-2、巨尾桉G9及桉树重要害虫桉树枝瘿姬小蜂为研究对象,比较了2个杂交种与其纯亲本种[(巨桉×细叶桉),(巨桉×尾叶桉)]间的抗虫性差异;同时,综合比较了品系间叶片性状(叶片厚度、含水率、比叶面积)、初生化合物(C、N、可溶性糖、可溶性蛋白)及次生化合物(总酚、单宁)差异,以研究桉树杂交种抗虫性变异的理化机制。结果表明:DH201-2感染桉树枝瘿姬小蜂的虫瘿数目显著高于其双亲本种,而G9上虫瘿数目显著低于其双亲本种。DH201-2与G9的叶片厚度与巨桉相近,而显著薄于另一亲本种。DH201-2叶片含水率显著高于细叶桉、与巨桉相近;G9叶片含水率则显著低于其双亲本种。相似的是,DH201-2和G9的比叶面积均显著高于其双亲本种。初生化合物方面,DH201-2叶片可溶性糖和可溶性蛋白含量均显著高于其亲本种,N含量则仅高于细叶桉;而G9叶片可溶性蛋白含量虽高于其双亲本种,可溶性糖含量则无显著差异,N含量显著低于其双亲本种。次生化合物方面,DH201-2叶片总酚和单宁含量显著低于其双亲本种,而G9则显著高于其双亲本种。因此,与其亲本种相比,DH201-2感虫性增加,而G9抗虫性增加;与桉树枝瘿姬小蜂发育相关的营养指标(如含水率、可溶性糖、N含量)及次生防御物质(如总酚、缩合单宁)在桉树杂交种组织内的含量差异影响了桉树杂交种对桉树枝瘿姬小蜂的抗性。在全球推行桉树杂交育种且桉树害虫数量逐年增加的大背景下,应加强对桉树杂交种抗虫性机制研究,为选育高抗品系及桉树产业可持续发展提供理论指导。     

<Emphasis Type="Italic">Ptcorp</Emphasis> gene induced by cold stress was identified by proteomic analysis in leaves of <Emphasis Type="Italic">Poncirus trifoliata</Emphasis> (L.) Raf.

A proteomic approach was employed to investigate the cold stress-responsive proteins in trifoliate orange (Poncirus trifoliata (L.) Raf.), which is a well-known cold tolerant citrus relative and widely used as rootstock in China. Two-year-old potted seedlings were exposed to freezing temperature (−6°C) for 50 min (nonlethal) and 80 min (lethal), and the total proteins were isolated from leaves of the treated plants. Nine differentially accumulated proteins over 2-fold changes in abundance were identified by two-dimensional gel electrophoresis and mass spectrometry. Among these proteins, a resistance protein induced by the nonlethal cold treatment (protein spot #2 from P. trifoliata) was selected as target sequence for degenerated primer design. By using the designed primers, a PCR product of about 700 bp size was amplified from P. trifoliata genomic DNA, which was further cloned and sequenced. A nucleotide sequence of 676 bp was obtained and named Ptcorp. Blast retrieval showed that Ptcorp shared 88% homology with an EST of cold acclimated Bluecrop (Vaccinium corymbosum) library (Accession number: CF811080), indicating that Ptcorp had association with cold acclimation. Semiquantitative RT-PCR analysis demonstrated that Ptcorp gene was up-regulated by cold stress which was consistent with the former result of protein expression profile. As the resistance protein (NBS-LRR disease resistance protein family) gene was up-regulated by cold stress in trifoliate orange and satsuma mandarin, it may imply that NBS-LRR genes might be associated with cold resistance in citrus.