Genetic variation in 14 Porphyra lines using restriction site amplified polymorphism (RSAP)

Restriction site amplified polymorphism (RSAP) is a molecular marker technique which just requires a simple polymerase chain reaction to amplify fragments around restriction sites. The RSAP analytic system was set up and applied to Porphyra genetic variation analysis in this study for the first time. Fourteen Porphyra lines were screened by the RSAP analytic system with 30 primer combinations, 12 of which produced stable and reproducible amplification patterns in three repeated experiments. The 12 primer combinations produced 408 amplified fragments, 402 of which (98.53%) were polymorphic, with an average of 33.5 polymorphic fragments for each primer combination, ranging in size from 50 to 500 bp. The 408 fragments were scored one by one and then used to develop a dendrogram of the 14 Porphyra lines with unweighted pair-group method arithmetic average. The genetic distance among these Porphyra lines ranged from 0.10 to 0.50. These Porphyra lines were divided into two major groups at the 0.71 similarity level: one group contained only Porphyra haitanensis lines and the other group contained Porphyra yezoensis lines. In addition, some specific RSAP markers were acquired from each Porphyra line apart from P. yezoensis Yqd-2-1, and five of them were sequenced. One of the specific markers, R1/R3-8₁₁₉ from P. yezoensis Y-9101, was successfully converted into sequence characterized amplification region marker. The result suggested that TRAP was a simple, stable, polymorphic, and reproducible molecular marker technique for the classification and resource protection of Porphyra lines.     

A CELLULOSE SYNTHASE (CESA) GENE FROM THE RED ALGA PORPHYRA YEZOENSIS (RHODOPHYTA)1

The cell walls of Porphyra species, like those of land plants, contain cellulose microfibrils that are synthesized by clusters of cellulose synthase enzymes (“terminal complexes”), which move in the plasma membrane. However, the morphologies of the Porphyra terminal complexes and the cellulose microfibrils they produce differ from those of land plants. To characterize the genetic basis for these differences, we have identified, cloned, and sequenced a cellulose synthase (CESA) gene from Porphyra yezoensis Ueda strain TU‐1. A partial cDNA sequence was identified in the P. yezoensis expressed sequence tag (EST) index using a land plant CESA sequence as a query. High‐efficiency thermal asymmetric interlaced PCR was used to amplify sequences upstream of the cDNA sequence from P. yezoensis genomic DNA. Using the resulting genomic sequences as queries, we identified additional EST sequences and a full‐length cDNA clone, which we named PyCESA1. The conceptual translation of PyCESA1 includes the four catalytic domains and the N‐ and C‐terminal transmembrane domains that characterize CESA proteins. Genomic PCR demonstrated that PyCESA1 contains no introns. Southern blot analysis indicated that P. yezoensis has at least three genomic sequences with high similarity to the cloned gene; two of these are pseudogenes based on analysis of amplified genomic sequences. The P. yezoensis CESA peptide sequence is most similar to cellulose synthase sequences from the oomycete Phytophthora infestans and from cyanobacteria. Comparing the CESA genes of P. yezoensis and land plants may facilitate identification of sequences that control terminal complex and cellulose microfibril morphology.     

GENETIC DIVERSITY AND INTROGRESSION IN TWO CULTIVATED SPECIES (PORPHYRA YEZOENSIS AND PORPHYRA TENERA) AND CLOSELY RELATED WILD SPECIES OF PORPHYRA (BANGIALES,RHODOPHYTA)1

We investigated the genetic variations of the samples that were tentatively identified as two cultivated Porphyra species (Porphyra yezoensis Ueda and Porphyra tenera Kjellm.) from various natural populations in Japan using molecular analyses of plastid and nuclear DNA. From PCR‐RFLP analyses using nuclear internal transcribed spacer (ITS) rDNA and plastid RUBISCO spacer regions and phylogenetic analyses using plastid rbcL and nuclear ITS‐1 rDNA sequences, our samples from natural populations of P. yezoensis and P. tenera showed remarkably higher genetic variations than found in strains that are currently used for cultivation. In addition, it is inferred that our samples contain four wild Porphyra species, and that three of the four species, containing Porphyra kinositae, are closely related to cultivated Porphyra species. Furthermore, our PCR‐RFLP and molecular phylogenetic analyses using both the nuclear and plastid DNA demonstrated the occurrence of plastid introgression from P. yezoensis to P. tenera and suggested the possibility of plastid introgression from cultivated P. yezoensis to wild P. yezoensis. These results imply the importance of collecting and establishing more strains of cultivated Porphyra species and related wild species from natural populations as genetic resources for further improvement of cultivated Porphyra strains.     

Isolation and characterization of microsatellite loci from a commercial cultivar of Porphyra haitanensis

Here we report 11 polymorphic microsatellite loci obtained from Porphyra haitanensis through an enriched genomic library. The analysis of 22 individuals from conchocelis phase of P. haitanensis, which possess a diploid nuclear phase, showed that allelic diversity range from three to six alleles. The polymorphism revealed by these loci will be extremely useful for genetic mapping, marker‐assistant selection, germplasm characterization and evolutionary studies in Porphyra.     

Structure and organization of the rDNA intergenic spacer region in <Emphasis Type="Italic">Pythium ultimum</Emphasis>

Nucleotide sequences of the rDNA intergenic spacer (IGS) region in Pythium ultimum were determined in 16 clones obtained from three isolates differing in production of sexual organs. Several sequences with different lengths were detected in each isolate, showing heterogeneity in the IGS region. In addition, several tandem repeat regions were detected in all the clones. The sequences, length, and number of each copy largely varied among repeat regions. Length heterogeneity arose from the complex combination of the number of copy within the repeat regions. Furthermore, the nucleotide sequence of each copy and the number of repetition varied not only between isolates but also between clones from an isolate. Based on the sequence similarity and the number of copies in repeat regions, specific patterns different between homothallic P. ultimum and the Pythium group HS (hyphal swellings) were recognized in a few regions. These results suggest that these two groups have slight genetic differences in the IGS region, although the differences in most of the repeat regions were not enough to identify each group.     

Observations on the division characterization of diploid nuclear in <Emphasis Type="Italic">Porphyra</Emphasis> (Bangiales,Rhodophyta)

Nuclear divisions of carpospores, conchocelis and conchospores of Porphyra yezoensis, P. haitanensis, P. katadai var. hemiphylla and P. oligospermatangia from China were investigated. The observations showed diploid chromosome numbers of 2n = 6 for P. yezoensis and P. oligospermatangia, and 2n = 10 for P. haitanensis and P. katadai var. hemiphylla. For all four species, somatic pairing of chromosome sets was observed in late prophase. Sister chromosomes separated at anaphase as mitosis took place in carpospores, conchocelis filamentous cells, conchosporangial branch cells and sporangial cells (conchospore formation). Chromosome configurations of tetrad and ring-shaped in conchospore germination were observed, demonstrating the occurrence of meiosis. The characteristics of diploid nuclear division in 2n = 6 species are the same as those of 2n = 10 species. The influence of somatic pairing on nuclear division of diploid cells in Porphyra was discussed.     

Early development patterns and morphogenesis of blades in four species of <Emphasis Type="Italic">Porphyra</Emphasis> (Bangiales,Rhodophyta)

Pigment mutants were used as genetic markers to study the early development and morphogenesis of blades in four species of Porphyra. In Porphyra haitanensis, P. yezoensis, and P. oligospermatangia, the first two divisions are transverse during conchospore germination, yielding four cells arranged in a line. These species are representative of linear development pattern in Porphyra. Resulting in blades with color sectors vertically arranged. In P. katadai var. hemiphylla, the first division is transverse and the upper cell divides vertically forming two side-by-side cells, and its blades are derived mostly from the upper cell showing a bilateral development pattern with two lateral parts of different colors. In this type of germination, most or the entire blade is derived from the upper cells. Some fronds of P. katadai var. hemiphylla developed in linear pattern. In addition, 9.3% of the conchospore germlings of linear development were produced at 10°C, 15.3% at 15°C, and 38.0% at 20°C for conchospore germlings of P. katadai var. hemiphylla. More linear development occurred at higher temperatures. The results revealed general trends of early developmental patterns and morphogenesis of blades within the genus of Porphyra. Developmental patterns and morphogenesis of blades are under the influence of temperatures.     

Extensive analysis of nuclear cistron rDNA sequence of <Emphasis Type="Italic">Paracyclopina nana</Emphasis> (Cyclopoida: Cyclopettidae)

As a special reference of the nuclear cistron rDNA of cyclopoid copepods, we obtained the entire DNA sequence of a single rDNA repeat unit from Paracyclopina nana (Cyclopoida: Cyclopettidae). The genomic organization of P. nana rDNA (7,974 bp, 51.7% of GC) was observed to be 18S–ITS1–5.8S–ITS2–28S–IGS in order. Comparative analyses of the rDNA between P. nana and other copepods showed that the intergenic spacer (IGS) was highly informative and divergent, while other coding regions are relatively conserved. We detected eleven poly(T) tracts in the IGS, demonstrating the high AT content in this region. In addition, many sub-repeat sequence patterns (e.g., AG, AT, GC, CCG, TC) such as microsatellites were identified from the rDNA IGS of P. nana. In this article, we show the first complete sequence of rDNA from the order Cyclopoida, providing a better understanding of molecular characteristics in molecular taxonomy.     

Analysis of hybridization strains of <Emphasis Type="Italic">Porphyra</Emphasis> based on <Emphasis Type="Italic">rbc</Emphasis>L gene sequences

Two strains, which are the free-living conchocelis of Porphyra yezoensis Ueda and Porphyra haitanensis T. J. Chang et B. F. Zheng, and four “interspecific hybridization” strains of these two species are investigated. The rbcL genes of 11 samples were amplified and sequenced, each of which were about 1,400 bp with a good specificity. The results of pair-wise distance matrix and multi-alignment showed that pair-wise distance were small while homologous index was large between strains Y-2066, Y-k2001, and Y-H001. These two indexes showed the same level as the above between strains H-2001, Y-hyC₁, and Y-hyC₂; however, the distances were larger between three former strains and three latter strains. Cluster trees showed the same trend. Fertile strains appeared after 2 years of culture of unfertile interspecific hybridization conchocelis and were separated from that based on different colors. Our finding that these fertile strains can bear offspring is important for understanding the interspecies hybridization of Porphyra. Molecular analysis of the fertile strains based on rbcL gene showed maternal inheritance. We inferred that somatic recombination was one of the reasons making interspecific hybridization strains fertile.     

DNA Sequencing of Type Material Reveals Pneophyllum marlothii comb. nov. from South Africa and P. discoideum comb. nov. (Chamberlainoideae,Corallinales, Rhodophyta) from Argentina

A partial rbcL sequence from the type material of Spongites discoideus from southern Argentina showed that it was distinct from rbcL sequences of South African specimens to which that name had been applied based on morpho-anatomy. A partial rbcL sequence from an original syntype specimen, herein designated the lectotype, of Lithophyllum marlothii, type locality Camps Bay, Western Cape Province, South Africa, was identical to rbcL sequences of South African field-collected specimens assigned to S. discoideus. Based on phylogenetic analyses of rbcL and/or psbA sequences, both of these species belong in Pneophyllum and are transferred there as P. discoideum comb. nov. and P. marlothii comb. nov. The two species exhibit a distinct type of development where thick, secondary, monomerous disks are produced from thin, primary, dimerous crusts. Whether this type of development represents an example of convergent evolution or is characteristic of a clade of species within Pneophyllum remains to be resolved.     

CONSTRUCTION OF A GENETIC LINKAGE MAP FOR PORPHYRA HAITANENSIS (BANGIALES,RHODOPHYTA) BASED ON SEQUENCE‐RELATED AMPLIFIED POLYMORPHISM AND SIMPLE SEQUENCE REPEAT MARKERS1

Molecular markers and molecular genetic maps are prerequisites for molecular breeding in any plant species. A comprehensive genetic linkage map for cultivated Porphyra haitanensis T. J. Chang et B. F. Zheng has not yet been developed. In this study, 157 double haploid (DH) lines [derived from a YSIII (wildtype) × RTPM (red‐type artificial pigmentation mutant) cross] were used as a mapping population in P. haitanensis. A total of 60 pairs of sequence‐related amplified polymorphism (SRAP) primers and 39 pairs of simple sequence repeat (SSR) primers were used to detect polymorphisms between the two parents. Fifteen SRAP and 16 SSR polymorphic primer pairs were selected to analyze the DH population. A linkage genetic map comprising 67 SRAP markers and 20 SSR markers in five linkage groups, with a total length of 830.6 cM and an average of 10.13 cM between markers, was constructed. The markers were distributed evenly in all linkage groups without clustering. The linkage groups comprised 12–23 markers ranging in length from 134.2 to 197.3 cM. The estimated genome length of P. haitanensis was 942.4 cM, with 88.1% coverage. This is the first report of a comprehensive genetic map in P. haitanensis. The map presented here will provide a basis for the development of high‐density genetic linkage maps and lay the foundation for molecular breeding work in P. haitanensis.     

Characterization, development and exploitation of EST-derived microsatellites in Porphyra haitanensis Chang et Zheng (Bangiales, Rhodophyta)

The frequency, type and distribution of simple sequence repeats (SSRs) in Porphyra haitanensis genomes was investigated using expressed sequence tag (EST) data deposited in public databases. A total of 3,489 non-redundant P. haitanensis ESTs were screened for SSRs using SSRhunter software. From those, 224 SSRs in 210 ESTs were identified; trinucleotides were the most common type of SSR (64.29%), followed by dinucleotides (33.48%). Tetranucleotides, pentanucleotides, and hexanucleotides were not common. Among all identified motif types, CGG/CCG had the highest frequency (33.9%), followed by TC/AG (24.6%). From these EST-SSRs, 37 SSR primer-pairs were designed and tested using common SSR reaction conditions with 15 P. haitanensis DNAs as templates. The results showed that 28 SSR primer-pairs gave good amplification patterns. These were used to conduct SSR analyses of genetic variations of the 15 germplasm strains of P. haitanensis. A total of 224 alleles were detected, with the number of alleles ranging from 4 to 15. The effective number of alleles, expected heterozygosity, and polymorphism information content of the 15 germplasm strains of P. haitanensis were 2.81, 0.64, and 0.57, respectively. All of these parameters indicate that the 15 germplasm strains of P. haitanensis harbor rich genetic variation.     

Phylogenetic Utility of the External Transcribed Spacer (ETS) of 18S–26S rDNA: Congruence of ETS and ITS Trees ofCalycadenia(Compositae)

The 3′ region of the external transcribed spacer (ETS) of 18S–26S nuclear ribosomal DNA was sequenced in 19 representatives ofCalycadenia/Osmadeniaand two outgroup species (Compositae) to assess its utility for phylogeny reconstruction compared to rDNA internal transcribed spacer (ITS) data. Universal primers based on plant, fungal, and animal sequences were designed to amplify the intergenic spacer (IGS) and an angiosperm primer was constructed to sequence the 3′ end of the ETS in members of tribe Heliantheae. Based on these sequences, an internal ETS primer useful across Heliantheaesensu latowas designed to amplify and sequence directly the 3′ ETS region in the study taxa, which were the subjects of an earlier phylogenetic investigation based on ITS sequences. Size variation in the amplified ETS region varied across taxa of Heliantheaesensu latofrom approximately 350 to 700 bp, in part attributable to an approximately 200-bp tandem duplication in a common ancestor ofCalycadenia/Osmadenia.Phylogenetic analysis of the 200-bp subrepeats and examination of apomorphic changes in the duplicated region demonstrate that the subrepeats inCalycadenia/Osmadeniahave evolved divergently. Phylogenetic analyses of the entire amplified ETS region yielded a highly resolved strict consensus tree that is nearly identical in topology to the ITS tree, with strong bootstrap and decay support on most branches. Parsimony analyses of combined ETS and ITS data yielded a strict consensus tree that is better resolved and generally better supported than trees based on either data set analyzed separately. We calculated an approximately 1.3- to 2.4-fold higher rate of sequence evolution by nucleotide substitution in the ETS region studied than in ITS-1 + ITS-2. A similar disparity in the proportion of variable (1.3 ETS:1 ITS) and potentially informative (1.5 ETS:1 ITS) sites was observed for the ingroup. Levels of homoplasy are similar in the ETS and ITS data. We conclude that the ETS holds great promise for augmenting ITS data for phylogenetic studies of young lineages.     

Purification of R‐phycoerythrin from Porphyra haitanensis (Bangiales,Rhodophyta) using expanded‐bed absorption1

R‐phycoerythrin (R‐PE) was purified from leafy gametophyte of Porphyra haitanensis T. J. Chang et B. F. Zheng (Bangiales, Rhodophyta) by a simple, scaleable procedure. Initially, phycobiliproteins were extracted by repeated freeze‐thaw cycles, resulting in release from the algal cells by osmotic shock. Next, R‐PE was recovered by applying the crude extract with a high concentration of (NH₄)₂SO₄ salt directly to the expanded‐bed columns loaded with phenyl‐sepharose. An expanded‐bed volume twice the settled‐bed volume was maintained; then low (NH₄)₂SO₄ concentration was used to develop the column. After two rounds of hydrophobic interaction chromatography (HIC), R‐PE was purified by anion‐exchange column. The method was also successful with free‐living conchocelis of P. haitanensis. The purified R‐PE was identified with electrophoresis, and absorption and fluorescence emission spectroscopy. The results were in agreement with those previously reported. The yield with a spectroscopic purity (OD₅₆₅/OD₂₈₀) higher than 3.2 (the ratio of A₅₆₅/A₆₂₀ ≤ 0.02) was 1.4 mg · g^?1 of leafy gametophyte of P. haitanensis. For the free‐living conchocelis of P. haitanensis extract, R‐PE could be purified successfully with only one round of HIC. The yield with a spectroscopic purity (OD₅₆₅/OD₂₈₀) higher than 3.2 (the ratio of A₅₆₅/A₆₂₀ ≤ 0.02) was 5.0 mg · g^?1 of free‐living conchocelis of P. haitanensis. The method described here is a scaleable technology that allows a large quantity of R‐PE to be recovered from the unclarified P. haitanensis crude extract. It is also a high protein recovery technology, reducing both processing costs and times, which enhances the value of this endemic Porphyra of China.     

Genetic population structure of <Emphasis Type="Italic">Osmunda japonica</Emphasis>, rheophilous <Emphasis Type="Italic">Osmunda lancea</Emphasis> and their hybrids

Rheophilous Osmunda lancea often hybridizes with a dryland ally, Osmunda japonica, to produce O. × intermedia, forming zonation in riverbanks and the adjacent dryland along flooding frequency clines. This study examined the genetic structure of populations consisting of O. × intermedia and the two parental species by analyzing ten nuclear DNA markers [six cleaved amplified polymorphic sequence (CAPS) markers and three simple sequence repeat (SSR) markers developed from an expressed sequence tag (EST) library, and the sequence of the glyceraldehyde-3-phosphate dehydrogenase gene GapCp] and chloroplast DNA sequences. The results suggest that the nuclear genes of O. japonica and O. lancea are genetically differentiated despite shared polymorphism in their chloroplast DNA sequences. This discrepancy may be attributable to natural selection and recent introgression, although it is not evident if introgression occurs between O. japonica and O. lancea in the examined populations. Our findings of putative F2 hybrids in O. × intermedia support its partial reproducibility, and also suggest that formation of later-generation hybrids generates morphological variation in O. × intermedia. O. lancea plants collected from geographically distant localities were genetically very similar, and it is suggested that O. lancea originated monotopically.     

Efficient 5' ETS walking from conserved 18S rDNA sequences of the dinoflagellates <Emphasis Type="Italic">Alexandrium</Emphasis> and <Emphasis Type="Italic">Akashiwo sanguinea</Emphasis> (Dinophyceae)

An external transcribed spacer (ETS) walking PCR technique was developed for the isolation of unknown sequences adjacent to the 18S rDNA. This strategy relied on four "walking primers", which were designed to bind unknown sequences upstream from the 18S rDNA, and a specially programmed series of thermocycles. This method was successful in the isolation of the 5' ETS regions from harmful dinoflagellates, including Alexandrium affine, A. catenella, A. minutum, A. tamarense, and Akashiwo sanguinea. Mono-directional sequencing reactions revealed the PCR products to be 392–962 nucleotides in length, and the 5' ETS in these products were longer than 362 bp. These are the first such sequences available for A. sanguinea and the Alexandrium. In comparisons of the ETS sequences, genetic distance was considerably high within the Alexandrium. Furthermore, the sequences were significantly variable among the different strains of identical species: genetic distance was recorded at 0.0420 for A. tamarense strains and as less than 0.7841 within strains of A. sanguinea. The 5'-start nucleotide of 18S rDNA was variable between the two genera: the five species of Alexandrium contained a T base, and A. sanguinea contained an A base. These results demonstrate the effectiveness of the ETS walking PCR method. This method will be valuable in directional ETS walking from known regions to unknown regions, particularly concerning the boundary sequences of rRNA genes.