Project description:We determined the complete chloroplast genome of Pedicularis hallaisanensis (Orobanchaceae), a hemi-parasitic perennial herb. This genome is 143,469?bp long and features a large single-copy region (81,664?bp) and a small single-copy region (12,203?bp), separated by two inverted-repeat regions (24,801?bp each). It contains 115 genes - 70 for coding, eight for rRNA, and 37 for tRNA. However, 11 ndh genes have been pseudogenized, truncated, or deleted. Our phylogenetic tree showed that these hemi-parasitic plants are sister to holo-parasitic genera within Orobanchaceae.

Project description:The holoparasitic broomrapes, Orobanche spp. and Phelipanche spp. (Orobanchaceae), are root parasites that completely depend on a host plant for survival and reproduction. There is considerable controversy on the taxonomy of this biologically and agronomically important family. Flowers of over 25 parasitic Orobanchaceae and a number of close, parasitic and non-parasitic, relatives emitted a complex blend of volatile organic compounds (VOCs), consisting of over 130 VOCs per species. Floral VOC blend-based phylogeny supported the known taxonomy in internal taxonomic grouping of genus and eliminated the uncertainty in some taxonomical groups. Moreover, phylogenetic analysis suggested separation of the broomrapes into two main groups parasitizing annual and perennial hosts, and for the annual hosts, into weedy and non-weedy broomrapes. We conclude that floral VOCs are a significant tool in species identification and possibly even in defining new species and can help to improve controversial taxonomy in the Orobanchaceae.

Project description:Parasitic plants infect other plants by forming haustoria, specialized multicellular organs consisting of several cell types, each of which has unique morphological features and physiological roles associated with parasitism. Understanding the spatial organization of cell types is, therefore, of great importance in elucidating the functions of haustoria. Here, we report a three-dimensional (3-D) reconstruction of haustoria from two Orobanchaceae species, the obligate parasite Striga hermonthica infecting rice (Oryza sativa) and the facultative parasite Phtheirospermum japonicum infecting Arabidopsis (Arabidopsis thaliana). In addition, field-emission scanning electron microscopy observation revealed the presence of various cell types in haustoria. Our images reveal the spatial arrangements of multiple cell types inside haustoria and their interaction with host roots. The 3-D internal structures of haustoria highlight differences between the two parasites, particularly at the xylem connection site with the host. Our study provides cellular and structural insights into haustoria of S. hermonthica and P. japonicum and lays the foundation for understanding haustorium function.

Project description:Genome and transcriptome of parasite plants Orobanchaceae

Project description:Polyploidy is pervasive in angiosperm evolution and plays important roles in adaptation and speciation. However, polyploid groups are understudied due to complex sequence homology, challenging genome assembly, and taxonomic complexity. Here, we study adaptive divergence in taxonomically complex eyebrights (Euphrasia), where recent divergence, phenotypic plasticity, and hybridization blur species boundaries. We focus on three closely related tetraploid species with contrasting ecological preferences that are sympatric on Fair Isle, a small isolated island in the British Isles. Using a common garden experiment, we show a genetic component to the morphological differences present between these species. Using whole-genome sequencing and a novel k-mer approach we call "Tetmer", we demonstrate that the species are of allopolyploid origin, with a sub-genome divergence of approximately 5%. Using ?2 million SNPs, we show sub-genome homology across species, with a very low sequence divergence characteristic of recent speciation. This genetic variation is broadly structured by species, with clear divergence of Fair Isle heathland Euphrasia micrantha, while grassland Euphrasia arctica and coastal Euphrasia foulaensis are more closely related. Overall, we show that tetraploid Euphrasia is a system of allopolyploids of postglacial species divergence, where adaptation to novel environments may be conferred by old variants rearranged into new genetic lineages.

Project description:In starchless mutants of Arabidopsis, pgm, and wild type, Col0, there are small differences in transcript levels at the end of the day, but large differences at the end of the night. Many of the transcripts of genes involved in biosynthesis and growth are repressed in the pgm mutant (Thimm et al., 2004). It is hypothesized that a transient depletion in sugars at the end of the night inhibits carbon utilization at the beginning of the day (Gibon et al., 2004). In order to test if the same inhibition of transcripts involved in biosynthesis and growth also occurs in starch excess mutants of Arabidopsis, Affymetrix arrays will be generated for WT (Col0), and the following mutants: sex4-3 (Salk 102567), ptpkis2 (Salk 053285), and sex1-3 (Yu et al., 2001). WT, sex4-3, and ptpkis2 plants were grown for 30 days and sex1-3 plants were grown for 36 days. All plants were grown in a growth chamber with a 12 hour photoperiod, quantum flux 100 mol m-2s-1, relative humidity was at least 75%, and a constant temperature of 20oC. Three leaves from 8 different plants of each genotype were harvested using a green safe lamp 0.5 hours before the lights came on in the morning and immediately frozen in LN2. Leaf material was powered using a mortar and pestle and RNA was extracted using a Purescript RNA isolation kit (Gentra Systems, MN, USA). Samples were then treated with DNaseI (Invitrogen, CA, USA). 12 samples were used in this experiment.

Project description:In starchless mutants of Arabidopsis, pgm, and wild type, Col0, there are small differences in transcript levels at the end of the day, but large differences at the end of the night. Many of the transcripts of genes involved in biosynthesis and growth are repressed in the pgm mutant (Thimm et al., 2004). It is hypothesized that a transient depletion in sugars at the end of the night inhibits carbon utilization at the beginning of the day (Gibon et al., 2004). In order to test if the same inhibition of transcripts involved in biosynthesis and growth also occurs in starch excess mutants of Arabidopsis, Affymetrix arrays will be generated for WT (Col0), and the following mutants: sex4-3 (Salk 102567), ptpkis2 (Salk 053285), and sex1-3 (Yu et al., 2001). WT, sex4-3, and ptpkis2 plants were grown for 30 days and sex1-3 plants were grown for 36 days. All plants were grown in a growth chamber with a 12 hour photoperiod, quantum flux 100 mol m-2s-1, relative humidity was at least 75%, and a constant temperature of 20oC. Three leaves from 8 different plants of each genotype were harvested using a green safe lamp 0.5 hours before the lights came on in the morning and immediately frozen in LN2. Leaf material was powered using a mortar and pestle and RNA was extracted using a Purescript RNA isolation kit (Gentra Systems, MN, USA). Samples were then treated with DNaseI (Invitrogen, CA, USA).

Project description:Dicyemids, previously called "mesozoans" (intermediates between unicellular protozoans and multicellular metazoans), are an enigmatic animal group. They have a highly simplified adult body, comprising only ∼30 cells, and they have a unique parasitic lifestyle. Recently, dicyemids were shown to be spiralians, with affinities to the Platyhelminthes. In order to understand molecular mechanisms involved in evolution of this odd animal, we sequenced the genome of Dicyema japonicum and a reference transcriptome assembly using mixed-stage samples. The D. japonicum genome features a high proportion of repetitive sequences that account for 49% of the genome. The dicyemid genome is reduced to ∼67.5 Mb with 5,012 protein-coding genes. Only four Hox genes exist in the genome, with no clustering. Gene distribution in KEGG pathways shows that D. japonicum has fewer genes in most pathways. Instead of eliminating entire critical metabolic pathways, parasitic lineages likely simplify pathways by eliminating pathway-specific genes, while genes with fundamental functions may be retained in multiple pathways. In principle, parasites can stand to lose genes that are unnecessary, in order to conserve energy. However, whether retained genes in incomplete pathways serve intermediate functions and how parasites overcome the physiological needs served by lost genes, remain to be investigated in future studies.

Project description:Melampyrum koreanum K.-J. Kim and S.-M. Yun 2012 (Orobanchaceae) is a hemi-parasitic herb, endemic to Korea. Here, the chloroplast genome of this species is reported. It was found to be 143,865 bp long, with a large single-copy region of 83,133 bp, a small single-copy region of 10,308 bp, and a pair of inverted repeat regions of 25,212 bp each. The chloroplast genome harbors 124 genes, including 79 protein-coding genes, 37 transfer RNA genes, and eight ribosomal RNA genes. Among the identified genes, rpoA and several ndh genes were determined to be pseudogenized due to the stop codon in the middle of the gene. The phylogenetic tree of the family was reconstructed based on 20 protein-coding genes, conserved across studied taxa. As a result, Melampyrum L. 1753 species were found to form a monophyletic group in the family.

Project description:Parasitic Plant Genome Project (PPGP)