Application of ISSR, RAPD, and cytological markers to the certification of Picea mariana, P. glauca, and P. engelmannii trees, and their putative hybrids.

Picea glauca (white spruce) and P. engelmannii (Engelmann spruce) are so similar and integrated that it is impossible to distinguish between them and their hybrids using morphological characteristics. Although natural hybrids between P. glauca and P. mariana (black spruce) do not generally occur, even though the 2 species are sympatric in North America, a first-generation hybrid, called the Rosendahl spruce, has been reported in the literature. In this study, several inter-simple sequence repeat (ISSR) markers were developed, as were randomly amplified polymorphic DNA (RAPD) markers, to certify spruce trees and their hybrids. ISSR fingerprinting was more efficient than RAPD assay; it detected 70% polymorphic DNA markers among the spruce species analyzed, whereas RAPD fingerprinting detected only 53%. Species-diagnostic ISSR and RAPD markers differentiating P. glauca from P. engelmannii and P. mariana were cloned and sequenced. Molecular certification of the spruce samples analyzed confirmed that all the seeds from interior spruce populations were true hybrids of P. glauca and P. engelmannii. But the analysis of seeds derived from the putative Rosendahl spruce indicated that this tree is likely a pure P. glauca genotype, rather than a hybrid of P. glauca and P. mariana. These data were confirmed by cytological analyses. Further analysis, using a more sensitive DNA amplification method with designed primers flanking the species-diagnostic ISSR and RAPD markers, revealed that such sequences are not generally species-specific because they are present in other spruce species.     

Genetic validation and characterization of RAPD markers differentiating black and red spruces: molecular certification of spruce trees and hybrids

 Picea mariana (black spruce) and P. rubens (red spruce) are closely related species which are difficult to differentiate morphologically. RAPD markers differentiating black and red spruces have been previously identified. In the present study, genetic validity of these markers was determined using samples representing range–wide provenances. Their applicability for certifying genetic identity of individual black, red trees and their hybrids from several sympatric and allopatric locations was demonstrated. These diagnostic fragments of both red and black spruce were present at a frequency of over 0.95 in allopatric provenances, but at a lower frequency in some sympatric provenances (0.43–1.00). Natural populations of red spruce exhibiting typical red spruce phenotype contained black spruce diagnostic RAPD fragments and black spruces growing in bogs with typical bog black spruce morphology, contained red spruce-specific RAPD markers. Some major RAPD markers were cloned and sequenced. The results reveal an extremely high degree of identity between the random primer and the primer binding sites on the genome. Amplification of black and red spruce genomic DNA with designed primers flanking the species-diagnostic RAPD markers indicates that most of RAPD markers used to differentiate black spruce from red spruce are not species specific since these sequences were detected in several spruce species using a more sensitive detection method. Received June 17, 2002; accepted August 5, 2002 Published online: February 4, 2003     

Detection and physical mapping of the 18S-5.8S-26S rDNA and the pKFJ660 probe with microsatellite sequences derived from the rice blast fungus (Magnaporthe grisea) in conifer species

Sequences homologous to the pKFJ660 probe, a fragment of DNA derived from the rice blast fungus (Magnaporthe grisea) carrying TC/AG repeat microsatellite sequences and 30 bp direct repeats were identified in the genome of Picea (spruce) and Pinus (pine) species by fluorescence in situ hybridization (FISH) and slot blot analyses. Slot blot analysis using the pKFJ660 probe revealed hybridization signals with genomic DNAs from various pine and spruce species. Further analyses indicated that the copy number of the (AG)30 motif was higher than 5 x 10(4) per plant genome for all plant samples tested, but the copy number of the sequences homologous to the whole pKFJ660 probe varies considerably among the 25 plant species tested. In situ hybridization of metaphase chromosomes from Pinus resinosa, P. banksiana and P. strobus showed the presence of sequences homologous to this probe on several chromosomes in a dispersed pattern. Major signals were observed on a few chromosomes indicating that some of these sequences are clustered in specific genomic locations. The locations of these repeats were compared to those of 18S-5.8S-26S rDNA in pine species. Chromosomal distribution of 18S-5.8S-26S rDNA varied among the three pine species (P. resinosa, P. banksiana and P. strobus) studied. Ribosomal DNA (rDNA) sites were identified on 14 to 20 chromosomes in these pine species.     

红皮云杉与嫩江云杉RAPD和ISSR分子标记反应体系优化和特异性检测

以红皮云杉和嫩江云杉为材料,采用现代分子标记技术-RAPD和ISSR标记研究红皮云杉与嫩江云杉间在基因组水平上的遗传差异。通过正交试验设计筛选RAPD和ISSR反应程序和反应体系。从近100个引物中筛选出3个RAPD引物和一个ISSR引物用来区分红皮云杉和嫩江云杉,它们分别是OPN07、OPA17、S25和ISSR67。用这4个引物扩增两种云杉基因组DNA,分别在1 000,950,1 500,2 000 bp处嫩江云杉有特异性谱带而红皮云杉没有。研究表明,采用RAPD和ISSR分子标记可以将红皮云杉和嫩江云杉在分子水平上加以区分,为今后进一步阐明云杉的系统进化,物种鉴定和种间杂交育种提供了理论依据。     

Rapid identification of white-Engelmann spruce species by RAPD markers

Fragments of random amplified polymorphic DNA (RAPDs) were used as markers to distinguish Picea glauca (Moench) Voss (white spruce) and Picea engelmannii Parry (Engelmann spruce). These species and their putative hybrids are difficult to differentiate morphologically and are collectively known as interior spruce. Four oligodeoxynucleotide decamer primers showed species-specific amplification products between white spruce and Engelmann spruce. These fragments are highly conserved among seed lots and individual trees of each species from diverse geographic origins. The consistency and reproducibility of these species-specific amplification products were tested in more than two amplification reactions. Therefore, RAPD markers can provide genetic markers for easy and rapid identification of the specific genetic entry of these spruce species and their reported putative hybrids. According to the frequencies of the species-specific RAPD markers, it is possible to estimate the hybrid fraction, indicative of true introgression between the two species. These results are useful for quick identification of both species and their hybrid swarms at any stage in the sporophyte phase of the life cycle, for determining the occurrence and the magnitude of introgressive hybridization in an overlap zone between the two species, and for certification purposes in operational re-forestation and tree-improvement programs.     

PCR-based molecular markers for assessment of somaclonal variation in <Emphasis Type="Italic">Pinus pinea</Emphasis> clones micropropagated <Emphasis Type="Italic">in vitro</Emphasis>

Four different markers [random amplified polymorphic DNA (RAPD), inter simple sequence repeat (ISSR), amplified fragment length polymorphism (AFLP), and selective amplified microsatellite polymorphism length (SAMPL)] were applied for evaluating somaclonal variation of micropropagated genotypes of stone pine (Pinus pinea L.). The total number of primers tested was 130, with 223 combinations assayed. A high number of them amplified successfully (178), representing 79.82 % of the total, and the average number of amplified fragments ranged from 2.47 (ISSR) to 65.76 (SAMPL). Based on internal controls, no problem of reproducibility was detected. Almost no somaclonal variation was detected within the clones. Of the tested markers, ISSR, AFLP, and SAMPL showed monomorphic amplification profiles, with only RAPD markers showing some interclonal variation.     

RAPD and ISSR-assisted identification and development of three new SCAR markers specific for the Thinopyrum elongatum E (Poaceae) genome

Diploid Thinopyrum elongatum, a wild relative of wheat, contains many agronomically desirable traits and has potential for increasing genetic variability and introducing desirable characters in this crop. Few molecular markers are available for rapid screening of T. elongatum genome segments in the wheat genetic background. We used 36 RAPD primers and 33 ISSR primers to screen for polymorphisms in the common wheat variety Chinese Spring and in T. elongatum. Two RAPD markers and one ISSR marker, designated OPF03(1407), LW10(1487) and UBC841(701), were identified and were specific for the T. elongatum E genome. Three pairs of primers flanking these specific sequences were designed to produce SCAR markers. All three SCAR markers were T. elongatum E genome-specific. Two of these SCAR markers, SCAR(807) and SCAR(577), were present in all seven T. elongatum chromosomes, while SCAR(839) was specific for T. elongatum chromosomes 2E and 3E. These newly developed SCAR markers should be useful for detecting alien genome chromatin or chromosome segments in the genetic background of common wheat.     

The effects of Laccaria proxima and fibrous pulp waste on the growth of nine container-grown conifer seedling species

 Japanese larch (Larix kaempferi), white spruce (Picea glauca), black spruce (Picea mariana), red spruce (Picea rubens), jack pine (Pinus banksiana), mugo pine (Pinus mugo), red pine (Pinus resinosa), Japanese black pine (Pinus thunbergii) and Douglas-fir (Pseudotsuga menziesii var. menziesii), were inoculated to test the effective host range of the ectomycorrhizal fungus Laccaria proxima and the possibility of utilizing pulp waste as a potting medium for containerized seedling production. Laccaria proxima tended to improve the container growth of Japanese black pine and white spruce, and significantly improved that of jack pine, mugo pine, black spruce, red spruce and Douglasfir. The growth of red pine and Japanese larch were only slightly improved with L. proxima. Pulp waste (33% by volume) had negative effects on tree seedling growth, except for Douglasfir (no significant effect). The interactions of Laccaria proxima and pulp waste varied; the hosts were significantly positive (P<0.01) in the case of jack pine and black spruce, but there was no significant effect for the rest. Negative effects were found with Japanese black pine. Use of pulp waste in seedling production of jack pine, black spruce, mugo pine, red spruce and Douglasfir inoculated with L. proxima and of Japanese black pine both with and without L. proxima is feasible, but further research is necessary to determine the optimal percentage of pulp waste that can be utilized in seedling production of tree species and the field performance of these seedlings. Accepted: 30 August 1995     

Identification of species-diagnostic inter simple sequence repeat markers for ten Phyllanthus species

Phyllanthus has been widely used in traditional medicine as an antipyretic, a diuretic, and to treat liver diseases and viral infections. Correct genotype identification of medicinal plant material remains important for the botanical drug industry. Limitations of chemical and morphological approaches for authentication have generated the need for newer methods in quality control of botanicals. In the present study, attempts were made to identify species-diagnostic markers for ten Phyllanthus species using the inter simple sequence repeat-polymerase chain reaction (ISSR-PCR) fingerprinting method. PCR amplification using seven ISSR primers resulted in significant polymorphism among the populations from different species. P. angustifolius and P. urinaria showed monomorphic frequency of maximum (63.88%) and minimum (20.64%), respectively. Seventeen species-diagnostic markers were identified for seven species (P. acidus, P. emblica, P. fraternus, P. urinaria, P. rotundifolius, P. amarus, and P. angustifolius) while no marker was detected for P. reticulatus, P. nivosus, and P. virgulatus. A maximum of six species-diagnostic markers were identified for P. acidus and a minimum of only one of 755 bp was available for P. amarus. Among the seventeen markers, nine were present in all individuals of particular species. The species-specific differences in fragment numbers and sizes could be used as diagnostic markers to distinguish the Phyllanthus species quickly.     

Natural hybridization between black spruce and red spruce

Using species-specific random amplified polymorphic DNA (RAPD) markers and morphological characters, natural hybridization between the closely related black spruce Picea mariana (Mill.) B.S.P. and red spruce P. rubens Sarg. was evaluated in natural populations from north-eastern North America. Sampling included populations from both areas of allopatry and also 14 populations from part of the area of sympatry located in the province of Québec and covering several thousands of square kilometres. Classification results from RAPD species-specific markers and from a discriminant function based on morphology were compared. Molecular analysis of the allopatric populations indicated a small amount of interspecific gene leakage with no asymmetric directionality to introgression. A high occurrence of hybrid/introgressant individuals was observed within sympatric populations, suggesting weak reproductive isolation. As expected, the detection of such individuals was more efficient using molecular markers than with morphological traits. The hybrid zone appeared extensive with variable species structure and, in some stands, the main component composed of hybrid/introgressant trees. Implications for the genecology and genetic management of these species are discussed.     

Genetic linkage map of ISSR and RAPD markers in Einkorn wheat in relation to that of RFLP markers

 The potential of PCR-based markers for construction of a genetic linkage map in Einkorn wheat was investigated. From a comparison of polymorphisms between two Einkorn wheats, Triticum monococcum (Mn) and T. boeoticum (Bt), we obtained 49 polymorphic bands produced by 33 primers for inter-simple sequence repeat (ISSR) and 36 polymorphic bands shown by 25 combinations of random amplified polymorphic DNA (RAPD) primers for mapping in 66 individuals in the F₂ population. Although 44 ISSR fragments and 29 RAPD fragments statistically showed a 3 : 1 segregation ratio in the F₂ population, only 9 markers each of the ISSR and RAPD bands were able to be mapped on the RFLP linkage map of Einkorn wheat. ISSR markers were distributed throughout the chromosomes. The mapped positions of the ISSR markers seemed to be similar to those obtained by the RFLP markers. On the other hand, 4 of the 9 RAPD markers could map the RFLP marker-poor region on the short arm of 3A^m, suggesting a potential to map novel regions containing repetitive sequences. Comparisons of the genetic linkage map of Einkorn wheat to the linkage map and cytological map of common wheat revealed that the marker orders between the two maps of Einkorn wheat and common wheat coincided except for 4A, which harbors chromosome rearrangements specific for polyploid wheats, indicating a conservatism between the two genomes. Recombinations in Einkorn wheat chromosomes took place more frequently around the centromere and less at the distal part of chromosomes in comparison to those in common wheat. Nevertheless, recombinations even in Einkorn wheat chromosomes were strongly suppressed around the centromere. In fact, the markers located within 1 cM of the centromere were located almost in the central part of the chromosome arm. Received: 7 June 1997 / Accepted: 17 June 1997     

Evaluation of Gliocladium roseum Against Wood-Degrading Fungi in vitro and on Major Canadian Wood Species

The protection of wood from fungal stain using biological agents has considerable potential for reducing discoloration of freshly sawn logs and lumber, while decreasing fungicide use. A number of biocontrol candidates have been reported worldwide, and Gliocladium roseum is one of such microorganisms. In this study, the bio-activity of G. roseum was investigated against different wood-degrading fungi on agar plates and wafers of 12 major Canadian wood species. Of the four sap-staining fungi tested on agar plates, Ophiostoma piceae and Alternaria alternata showed greater sensitivity than Aureobasidium pullulans or Cladosporium sphaerospermum to G. roseum . On wood wafers, a spore suspension of G. roseum (1 10 6 spores/ ml) provided satisfactory protection of wood from stain on western hemlock ( Tsuga heterophylla ), white spruce ( Picea glauca ), amabilis fir ( Abies amabilis ), balsam fir ( Abies balsamea ) and jack pine ( Pinus banksiana ). The antagonist also restricted the development of moulds and stain on black spruce ( Picea mariana ), lodgepole pine ( Pinus contorta ) and white pine ( Pinus strobus ), but did not protect Douglas fir ( Pseudotsuga menziesii ), red pine ( Pinus resinosa ), white birch ( Betula papyrifera ) and trembling aspen ( Populus tremuloides ). Logs of black spruce and jack pine treated with G. roseum were much less stained than untreated ones after a 4-month period of summer storage in the field. In an anti-decay test, no significant difference was found for weight loss between wood blocks treated with G. roseum and untreated samples. Application of G. roseum with low levels of an anti-sap stain chemical (NP-1) to wood wafers simultaneously did not produce a noticeable improvement in wood protection against stain compared with the chemical treatment alone.     

Species-specific RAPD fingerprints for the closely related Picea mariana and P. rubens

Species-specific molecular markers were designed to assist in the identification of closely related black spruce (Picea mariana [B.S.P.] Mill.) and red spruce (P. rubens Sarg.) in northeastern North America. Trees from six provenances of black spruce and three provenances of red spruce were sampled from outside the sympatric zone. They were first classified using a composite index of five qualitative morphological traits. The species-specific genetic markers were developed using random amplified polymorphic DNAs (RAPD) and a combination of bulk sample and individual tree analyses. Each species bulk sample was constructed from DNAs obtained from 12 trees that were from outside the sympatric zone and showed a morphological composite index specific of each species. A total of 161 primers were screened with the bulk samples. From these, 52 primers showing segregating fingerprints were further screened with the individual trees. Most of the markers observed were shared by the two species, and there was less diversity in P. rubens. A small number of markers were found to be monomorphic or nearly monomorphic and specific to either P. mariana or P. rubens. These markers remained species-specific when F₁ progenies derived from independent intraspecific crosses were screened, and they were subsequently found to co-segregate in hybrids derived from independent interspecific crosses here used as controls.     

Construction of Molecular Linkage Map in Masson Pine Using RAPD Markers and Megaga metophytes from a Single Tree

A set of 300 random ohgonucleotide primers was screened for random amplified polymorphic DNA (RAPD) fragments within a sample of 79 megagametophyte DNAs of a single masson pine ( Pinus massoniana Lamb. ) to generate RAPD markers and construct the molecular linkage map for masson pine. 64 repeatable RAPD markers segregated in a 1 present to 1 absent ratio. Through multipoint linkage analysis, 47 markers were assigned to 13 different linkage groups(pairs). It covered a tdtal genetic distance of over 692.5 cM (centimorgan). The average distance between markers was 14.7 cM. It supplied a linkage framework for a more saturated linkage map of masson pine.     

Genetic variation,population structure and identification of yellow catfish, <Emphasis Type="Italic">Mystus nemurus</Emphasis> (C&;V) in Thailand using RAPD,ISSR and SCAR marker

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers were used to investigate the genetic structure of four subpopulations of Mystus nemurus in Thailand. The 7 RAPD and 7 ISSR primers were selected. Of 83 total RAPD fragments, 80 (96.39%) were polymorphic loci, and of 81 total ISSR fragments, 75 (92.59%) were polymorphic loci. Genetic variation and genetic differentiation obtained from RAPD fragments or ISSR fragments showed similar results. Percentage of polymorphic loci (%P), observed number of alleles, effective number of alleles, Nei’s gene diversity (H) and Shannon’s information index revealed moderate to high level of genetic variations within each M. nemurus subpopulation and overall population. High levels of genetic differentiations were received from pairwise unbiased genetic distance (D) and coefficient of differentiation. Mantel test between D or gene flow and geographical distance showed a low to moderate correlation. Analysis of molecular variance indicated that variations among subpopulations were higher than those within subpopulations. The UPGMA dendrograms, based on RAPD and ISSR, showing the genetic relationship among subpopulations are grouped into three clusters; Songkhla (SK) subpopulation was separated from the other subpopulations. The candidate species-specific and subpopulation-specific RAPD fragments were sequenced and used to design sequence-characterized amplified region primers which distinguished M. nemurus from other species and divided SK subpopulation from the other subpopulations. The markers used in this study should be useful for breeding programs and future aquacultural development of this species in Thailand.     

A set of polymorphic EST‐derived markers for Picea species

A pooled DNA method was used to produce fully informative EST (expressed sequence tag)‐derived markers for the Picea genus. Nine markers were produced from 10 cDNA identified as candidates for cold tolerance or embryogenesis. Indels and SNPs (single nucleotide polymorphisms) were characterized from sequences obtained from pools of 10 individuals for each of the three species: Picea glauca (white spruce), Picea mariana (black spruce) and Picea abies (Norway spruce). Indels were present in 28% of the sequences and SNPs with a frequency greater than 10% were present on average in 1.2% of the positions.     

RAPD variations among pure and hybrid populations ofPicea mariana, P. rubens, andP. glauca (Pinaceae), and cytogenetic stability ofPicea hybrids: Identification of species-specific RAPD markers

Random amplified polymorphic DNA (RAPD) analysis was used to determine genetic relationships amongP. mariana (black spruce),P. rubens (red spruce), andP. glauca (white spruce) and to assess the degree of polymorphism within populations from different provenances and among spruce hybrids. Eleven arbitrary decamer primers were used to amplify genomic DNAs extracted from embryogenic cultures and seedlings. Species-specific RAPD markers were identified.Picea mariana andP. rubens showed similar RAPD profiles confirming their close genetic relationship. Species-specific RAPD markers were identified and were useful in distinguishing white spruce from black and red spruces. RAPD differentiation between populations within each species was small. The level of polymorphism was much higher in spruce hybrid populations than in the pure species. Cytological analysis ofP. mariana ×P. rubens hybrids showed normal mitotic behaviour at prophase, metaphase, anaphase, and telophase. All the hybrids analyzed from different cross combinations were euploids.     

Genetic analysis of Pinus strobus and Pinus monticola populations from Canada using ISSR and RAPD markers: development of genome-specific SCAR markers

Pinus is the largest genus of conifers, containing over 100 species and is also the most widespread genus in the Northern Hemisphere. Pinus monticola and P. strobus are two closely related and economically important species in Canada. Morphological and allometric characteristics have been used to assess genetic variation within these two species but these markers are not reliable due to ecological variations. The purpose of the present study was to determine the level of genetic diversity within and among Canadian populations from the two species using molecular markers and to identify and characterize genome-specific inter-simple sequence repeats (ISSR) and random amplified polymorphic DNA (RAPD) markers. The level of genetic variation among populations was much lower for P. monticola than P. strobus. For both species, the among population variation values were smaller than within population variation. The populations from P. monticola were more closely genetically related than populations from P. strobus based on ISSR and RAPD analyses. Six ISSR and four RAPD markers specific to either P. monticola or P. strobus were cloned and sequenced. Primer pairs flanking these specific sequences were designed and genome specific SCAR markers for P. monticola and P. strobus were developed and characterized.