Paternal inheritance of chloroplast DNA in Larix

Restriction enzyme analysis was used to determine the inheritance of chloroplast DNA in conifers. The plant material studied included five individual trees of European larch (Larix decidua Mill.) and Japanese larch (Larix leptolepis Sieb. & Zucc.) and six hybrids from controlled crosses between these species. The chloroplast DNA fragment patterns generated by Bam-HI and Bcl-I were species-specific. Paternal inheritance of chloroplast DNA patterns was found in most Larix crosses. One hybrid showed maternal chloroplast DNA patterns. In addition, two other hybrids had mixed Bam-HI patterns suggesting recombination between maternal and paternal chloroplast DNA. The mechanisms favoring paternal inheritance in conifers are not known. Paternal inheritance of chloroplast DNA is suggested it to be a general phenomenon in conifers.     

Maternal inheritance of the chloroplast genome in Eucalyptus globulus and interspecific hybrids.

The utility of chloroplast DNA (cpDNA) in Eucalyptus, either as a molecular marker for genetic studies or as a potential vehicle for genetic manipulation, is based on knowledge of its mode of inheritance. Chloroplast inheritance in angiosperms can vary among and within species, and anomalous inheritance has been reported in some interspecific-hybrid combinations. In Eucalyptus, abnormalities of pollen-tube growth occur in a number of interspecific-hybrid combinations, and this might increase the likelihood of anomalous chloroplast transmission. We used a rapid PCR technique to determine chloroplast heritability in 425 progeny of Eucalyptus, comprising 194 progeny of the premier pulpwood species E. globulus and 231 interspecific hybrids between E. globulus and E. nitens (F1, F2, and backcrosses). At this sampling intensity, no pollen-mediated transmission of cpDNA was found in any of the 40 families tested. The results are discussed with reference to chloroplast engineering and the use of cpDNA as a seed-specific marker in phylogeographic studies of Eucalyptus.     

Paternal inheritance of mitochondria and chloroplasts in Festuca pratensis-Lolium perenne intergeneric hybrids

Organelle inheritance in intergeneric hybrids of Festuca pratensis and Lolium perenne was investigated by restriction enzyme and Southern blot analyses of chloroplast DNA (cpDNA) and mitochondrial DNA (mtDNA). All F₁ hybrids exhibited maternal inheritance of both cpDNA and mtDNA. However, examination of backcross hybrids, obtained by backcrossing the intergeneric F₁ hybrids to L. Perenne, indicated that both uniparental maternal organelle inheritance and uniparental paternal organelle inheritance can occur in different backcross hybrids.     

Chloroplast inheritance patterns in Actinidia hybrids determined by single stranded conformation polymorphism analysis

The inheritance patterns of the chloroplast genomes of the Actinidia hybrids A. eriantha (male parent) x A. chinensis (female parent) and A. chinensis (male parent) x A. melanandra (female parent) were analyzed using single-strand conformation polymorphism (SSCP) analysis of the trnL-trnF and psbA-trnH intergenic spacers. This showed that the artificial hybrids between A. eriantha and A. chinensis all had the haplotype of their male parent. Alignment of the sequences of A. eriantha and A. chinensis revealed four substitutions and one insertion (GATTC) in trnL-trnF and two substitutions in psbA-trnH. In contrast, the haplotypes of the artificial hybrids between A. chinensis and A. melanandra had the same patterns as their female parent. Alignment of the entire region of A. chinensis and A. melanandra revealed 12 substitutions: 1 in trnL-trnF and 11 in psbA-trnH. However, no sequence variation in the trnL-trnF and psbA-trnH intergenic spacers was found. We have developed a simple screening method for detecting the inheritance patterns of Actinidia chloroplast DNA haplotypes using SSCP analysis of the trnL-trnF and psbA-trnH intergenic spacers. Our findings indicate that the inheritance of the chloroplast genome in Actinidia hybrids differs according to the species selected.     

Maternal inheritance of mitochondrial genomes and complex inheritance of chloroplast genomes in Actinidia Lind.: evidences from interspecific crosses

The inheritance pattern of chloroplast and mitochondria is a critical determinant in studying plant phylogenetics, biogeography and hybridization. To better understand chloroplast and mitochondrial inheritance patterns in Actinidia (traditionally called kiwifruit), we performed 11 artificial interspecific crosses and studied the ploidy levels, morphology, and sequence polymorphisms of chloroplast DNA (cpDNA) and mitochondrial DNA (mtDNA) of parents and progenies. Sequence analysis showed that the mtDNA haplotypes of F1 hybrids entirely matched those of the female parents, indicating strictly maternal inheritance of Actinidia mtDNA. However, the cpDNA haplotypes of F1 hybrids, which were predominantly derived from the male parent (9 crosses), could also originate from the mother (1 cross) or both parents (1 cross), demonstrating paternal, maternal, and biparental inheritance of Actinidia cpDNA. The inheritance patterns of the cpDNA in Actinidia hybrids differed according to the species and genotypes chosen to be the parents, rather than the ploidy levels of the parent selected. The multiple inheritance modes of Actinidia cpDNA contradicted the strictly paternal inheritance patterns observed in previous studies, and provided new insights into the use of cpDNA markers in studies of phylogenetics, biogeography and introgression in Actinidia and other angiosperms.     

Chloroplast DNA variation and hybridization between invasive populations of Japanese knotweed and giant knotweed (Fallopia, Polygonaceae)

Chloroplast inheritance and the direction of hybridization have been investigated in some invasive weeds from the genus Fallopia. PCR RFLP analysis of the tmK intron has been used to identify markers that distinguish between the chloroplast genomes of British samples of F. japonica var. japonica, F. japonica var. compacta and F. sachalinensis. Maternal inheritance of chloroplast DNA has been observed in controlled crosses and in hybrid seed from known maternal parents. PCR RFLP analysis of wild hybrids between F. japonica var. japonica and either F. japonica var. compacta or F. sachalinensis indicates that F. japonica var. japonica is the maternal parent of all of its hybrids, consistent with the apparent male-sterility of this taxon in Britain. Hybrids between F. japonica var. compacta and F. sachalinensis show the chloroplast haplotype of one or other of the parents, consistent with bi-directional hybridization.     

叶绿体SSR标记：柑橘体细胞杂种胞质遗传分析的一种新方法

从水稻(Oryza sativa L．)、烟草(Nicotiana tabacum L．)和黑松(Pinus thunbergii Parl．)等植物的22对叶绿体SSR引物中筛选出5对能用于柑橘叶绿体SSR分析的引物,应用这5对引物对9个组合的柑橘体细胞杂种的叶绿体遗传进行了分析。结果表明：这些组合再生的杂种中叶绿体都呈现随机分离,该现象与以前报道的RFLP分析结果一致,而且其可靠性已被CAPS分析所证实。表明柑橘叶绿体SSR同RFLP及CAPS一样可靠,并且更简单高效、易于操作,特别适合对柑橘等植物体细胞杂种进行早期胞质遗传组成分析。     

叶绿体S S R标记:柑橘体细胞杂种胞质遗传分析的一种新方法

从水稻(Oryza sativa L.)、烟草(Nicotiana tabacum L.)和黑松(Pinus thunbergiiParl.)等植物的22对叶绿体SSR引物中筛选出 5对能用于柑橘叶绿体SSR分析的引物,应用这5对引物对9个组合的柑橘体细胞杂种的叶绿体遗传进行了分析.结果表明:这些组合再生的杂种中叶绿体都呈现随机分离,该现象与以前报道的RFLP分析结果一致,而且其可靠性已被CAPS分析所证实.表明柑橘叶绿体SSR同RFLP及CAPS一样可靠,并且更简单高效、易于操作,特别适合对柑橘等植物体细胞杂种进行早期胞质遗传组成分析.     

Inheritance of organelle DNA in rye (Secale cereale L.) and wheat (x Triticale Thch.) hybrids

The mode of inheritance of chloroplast and mitochondrial DNA (mtDNA) in rye x triticale intergeneric hybrids has been studied with the use of specific PCR markers for loci 18S/5S and 3'rbcL in organelle DNA. In rye x triticale BC1, mtDNA copies of two types, paternal and maternal, have been found; in BC2 plants, only paternal mtDNA and chloroplast DNA (cpDNA) have been detected. Mechanisms determining the inheritance and/or differential amplification of organelles of a specific type are discussed.     

Maternal transmission of cytoplasmic DNA in interspecific hybrids of peat mosses, Sphagnum (Bryophyta)

The progeny of spontaneous interspecific hybrid sporophytes of Sphagnum were used to analyse the inheritance of cytoplasmic DNA. The analysis showed that only the female parent donated chloroplasts and mitochondria in Sphagnum hybrids. Thus, this is the first study demonstrating maternal cytoplasmic inheritance in a nonvascular land plant. This finding has important implications for phylogenetic reconstructions utilizing chloroplast and mitochondrial DNA sequences as well as for the evolution of cytoplasmic inheritance in relation to the life cycle of land plants.     

Non-random inheritance of organellar genomes in symmetric and asymmetric somatic hybrids between Lycopersicon esculentum and L. pennellii

Summary The organization of the mitochondrial genome and the genotype of the chloroplast genome was characterized using restriction fragment length polymorphisms in a population (82 individuals) of symmetric and asymmetric somatic hybrids of tomato. The protoplast fusion products were regenerated following the fusion of leaf mesophyll protoplasts of Lycopersicon esculentum (tomato cv UC82) with suspension cell protoplasts of L. pennellii that had been irradiated with 5, 10, 15, 25, 50, or 100 kRads from a gamma source. The chloroplast genome in the somatic hybrids showed a random pattern of inheritance, i.e., either parental genome was present in equal numbers of regenerants, while in asymmetric somatic hybrids, the chloroplast genotype reflected the predominant nuclear genotype, i.e., tomato. The mitochondrial genome in the symmetric somatic hybrids showed a non-random pattern of inheritance, i.e., predominantly from the L. pennellii parent; asymmetric somatic hybrids had more tomato-specific mitochondrial sequences than symmetric somatic hybrids. The non-random inheritance of the chloroplast and mitochondrial DNA in these tomato protoplast fusion products appears to be influenced by the nuclear background of the regenerant.     

CPDNA INHERITANCE IN INTERSPECIFIC CROSSES AND EVOLUTIONARY INFERENCE IN LOUISIANA IRISES

Inheritance of chloroplast DNA haplotypes was determined for progeny from interspecific crosses involving Iris fulva and Iris hexagona. Polymerase chain reaction amplification of chloroplast DNA followed by restriction fragment length analysis of the amplification products was used to identify the haplotypes of 213 experimental hybrids. This analysis allowed a test for maternal, paternal, and biparental inheritance in the hybrid offspring. Two of the hybrid progeny possessed haplotypes that were combinations of those present in the pollen and seed parents. One of the offspring possessed only the paternal haplotype. The remaining 210 plants had the haplotypes characteristic of the maternal plant. Chloroplast DNA variation in iris populations has previously been used to infer not only introgressive hybridization between I. fulva and I. hexagona, but also the greater role of direct pollen transfer relative to seed dispersal as the avenue for interspecific gene flow. We reexamined the previous conclusions concerning the mode of introgressive hybridization between I. fulva and I. hexagona in light of the results from the chloroplast DNA inheritance analysis. The low level of paternal and biparental inheritance detected in this analysis suggests that previous analyses using the chloroplast DNA as a seed-specific marker were robust. Furthermore, data concerning barriers to hybridization between I. fulva and I. hexagona suggest that the probability of chloroplast DNA introgression via pollen is low.     

Transmission of organelle genomes in citrus somatic hybrids

Restriction fragment length polymorphisms (RFLPs), were used to analyze the organelle composition of two-year-old trees, recovered from two different experiments: protoplasts from embryogenic cell suspensions of `Succari' sweet orange (C. sinensis L. Osbeck) were fused with leaf protoplasts of Citropsis gilletiana Swingle & M. Kell or to leaf protoplasts of Atalantia ceylanica(Arn.) Oliv. The somatic hybrids of both fusion combinations had the mitochondrial genome from the embryogenic partner. In some somatic hybrids, non-parental fragments were observed among the mitochondrial patterns. Somatic hybrids between `Succari' + Atalantia had plastid DNA from the embryogenic parent, while the somatic hybrids of `Succari' + Citropsis all had both parental chloroplast genomes. The relative abundance of organelle DNAs in the donor embryogenic and leaf cells may explain the consistent transmission of the embryogenic parent mitochondrial DNA and the inheritance of the chloroplast genome from either parent. This revised version was published online in June 2006 with corrections to the Cover Date.     

Differential organellar inheritance in Passiflora’s (Passifloraceae) subgenera

Four chloroplast (cp), one mitochondrial (mt), and one ribosomal nuclear (ITS) DNA regions were studied in four artificial and one natural interspecific Passiflora hybrids. The ITS results confirmed their hybrid origin and all mtDNAs were maternally inherited. The same, however, was not true for cpDNA. The four hybrids (three artificial and one natural) derived from species of the Passiflora subgenus showed a cpDNA paternal inheritance, while the one involving taxa of the Decaloba subgenus gave evidence of maternal transmission. These results are of significance for the ongoing studies which are being performed on the molecular evolution of this genus and furnish important background for investigations aimed at clarifying the factors which determine cpDNA inheritance.     

甘薯质体遗传方式的DNA指纹图谱分析

用DNA指纹图谱分析了甘薯（Ipomoea batatasLam.)徐薯18和AB78-1品系及它们的正反交子代叶绿体DNA,结果显示子代叶绿体DNA指纹均与母本相同,而未发现与父本或双亲相同的指纹图谱,因此在该杂交组合中质体遗传方式为母系遗传,这个结论与先前根据细胞学研究所推测的甘薯质体遗传试不同。表明旋花科植物可能并不存在一个一致的父系或双亲质体传递模式。DNA指纹图谱分析用于质体遗传的研究尚未见报道,本文对其优越性进行了讨论。     

甘薯质体遗传方式的DNA指纹图谱分析

用DNA指纹图谱分析了甘薯(Ipomoea batatas Lam.)徐薯18和AB78-1品系及它们的正反交子代叶绿体DNA,结果显示子代叶绿体DNA指纹均与母本相同,而未发现与父本或双亲相同的指纹图谱,因此在该杂交组合中质体遗传方式为母系遗传.这个结论与先前根据细胞学研究所推测的甘薯质体遗传方式不同,表明旋花科植物可能并不存在一个一致的父系或双亲质体传递模式.DNA指纹图谱分析用于质体遗传的研究尚未见报道,本文对其优越性进行了讨论.     

甘草属种间杂交种叶绿体DNA父系遗传的发现及分析

通过对甘草属乌拉尔甘草(Glycyrrhiza uralensis)、光果甘草(G.glabra)、胀果甘草(G.inflata)及其人工杂交种组合G.uralensis♀×G.glabra♂、G.glabra♀×G.uralensis♂、G.uralensis♀×G.inflata♂、G.inflata♀×G.uralensis♂共68份材料的核基因ITS序列、叶绿体rbc L、mat K、trn H-psb A基因的序列分析,探讨了甘草属叶绿体DNA遗传方式。结果表明:(1)亲本种和人工杂交种ITS序列长度均为614 bp,其中34份人工杂交种ITS序列存在4处变异位点,且人工杂交种均检测出来自父本、母本ITS序列相同位点碱基的叠加,检测率为100%。(2)亲本种与人工杂交种的叶绿体基因rbc L、mat K、trn H-psb A序列长度相同,共有4处变异位点,人工杂交种在变异位点处的碱基与其相对应的父本碱基一致率高达97.1%。以上结果说明,该研究获得34份人工杂交种为100%杂交成功的F_1子代,核基因ITS序列可用于甘草属杂交种的遗传鉴定;甘草属叶绿体rbcL、mat K、trn H-psb A基因具有父系遗传特性,推测甘草属质体的遗传方式主要表现为父系遗传,这种质体遗传方式的发现为甘草属杂交种和遗传多样性研究提供了新的认识,也为杂交种的亲本鉴定提供分子依据。     

Inheritance of Organelle DNA in Rye (Secale cereale L.) with Triticale (×Triticale Thch.) Hybrids

The mode of inheritance of chloroplast and mitochondrial DNA (mtDNA) in rye × triticale intergeneric hybrids has been studied with the use of specific PCR markers for loci 18S/5S and 3rbcL in organelle DNA. In rye × triticale BC₁, mtDNA copies of two types, paternal and maternal, have been found; in BC₂ plants, only paternal mtDNA and chloroplast DNA (cpDNA) have been detected. Mechanisms determining the inheritance and/or differential amplification of organelles of a specific type are discussed.     

MATERNAL INHERITANCE OF THE CHLOROPLAST AND MITOCHONDRIAL GENOMES IN CHEILANTHOID FERNS

Molecular data from the chloroplast genome are being used to reconstruct the phylogeny and revise the problematic taxonomy of the xerically adapted cheilanthoid ferns. Chloroplast DNA based phylogenies trace maternal, paternal, or biparental lineages, depending on the mode of inheritance of the chloroplast genome, and instances of all three modes of inheritance are known in the seed plants. Evidence for biparental and uniparental inheritance in ferns has been presented, but the distinction between maternal and paternal uniparental inheritance has not been rigorously made, and the mode of inheritance in cheilanthoid ferns is completely unknown. Based on a natural hybrid population in the cheilanthoid genus Pellaea in which the maternal and paternal derivations of the hybrid are unambiguously known, restriction fragment length polymorphisms of chloroplast DNA demonstrated simple maternal inheritance of the chloroplast genome. This hybrid complex was also examined for restriction fragment length polymorphisms of its mitochondrial DNA, providing the first direct evidence that the mitochondrial genome in ferns is maternally inherited.     

Independent segregation of the plastid genome and cytoplasmic male sterility in Petunia somatic hybrids

Summary The chloroplast genomes of three sets of Petunia somatic hybrids were analyzed to examine the relationship between chloroplast DNA (cpDNA) composition and cytoplasmic male sterility (CMS). Chloroplast genomes of somatic hybrid plants were identified either by restriction and electrophoresis of purified cpDNAs or by hybridization of total DNA digests with cloned cpDNA probes that distinguish the parental genomes.The chloroplast genomes of a set of seven somatic hybrids derived from the fusion of Petunia CMS line 2423 and fertile line 3699 were analyzed. All seven plants were fertile, and all exhibited the cpDNA restriction pattern of the sterile cytoplasm. Similarly, four fertile somatic hybrids derived from the fusion of CMS line 3688 and fertile line 3677 were found to contain the CMS chloroplast genome. The cpDNA compositions of four fertile and two sterile somatic hybrids derived from the fusion of CMS line 3688 and fertile line 3704 were determined by restriction analysis of purified cpDNAs; all six plants exhibited the cpDNA restriction pattern of line 3704. Thus the CMS phenotype segregates independently of the chloroplast genome in Petunia somatic hybrids, indicating that CMS in Petunia is not specified by the chloroplast genome.