Analysis of the TCP genes expressed in the inflorescence of the orchid Orchis italica.

TCP proteins are plant-specific transcription factors involved in many different processes. Because of their involvement in a large number of developmental pathways, their roles have been investigated in various plant species. However, there are almost no studies of this transcription factor family in orchids. Based on the available transcriptome of the inflorescence of the orchid Orchis italica, in the present study we identified 12 transcripts encoding TCP proteins. The phylogenetic analysis showed that they belong to different TCP classes (I and II) and groups (PCF, CIN and CYC/TB1), and that they display a number of conserved motifs when compared with the TCPs of Arabidopsis and Oryza. The presence of a specific cleavage site for the microRNA miRNA319, an important post-transcriptional regulator of several TCP genes in other species, was demonstrated for one transcript of O. italica, and the analysis of the expression pattern of the TCP transcripts in different inflorescence organs and in leaf tissue suggests that some TCP transcripts of O. italica exert their role only in specific tissues, while others may play multiple roles in different tissues. In addition, the evolutionary analysis showed a general purifying selection acting on the coding region of these transcripts.

De novo transcriptome assembly from inflorescence of Orchis italica: analysis of coding and non-coding transcripts.

The floral transcriptome of Orchis italica, a wild orchid species, was obtained using Illumina RNA-seq technology and specific de novo assembly and analysis tools. More than 100 million raw reads were processed resulting in 132,565 assembled transcripts and 86,079 unigenes with an average length of 606 bp and N50 of 956 bp. Functional annotation assigned 38,984 of the unigenes to records present in the NCBI non-redundant protein database, 32,161 of them to Gene Ontology terms, 15,775 of them to Eukaryotic Orthologous Groups (KOG) and 7,143 of them to Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways. The in silico expression analysis based on the Fragments Per Kilobase of transcript per Million mapped reads (FPKM) was confirmed by real-time RT-PCR experiments on 10 selected unigenes, which showed high and statistically significant positive correlation with the RNA-seq based expression data. The prediction of putative long non-coding RNAs was assessed using two different software packages, CPC and Portrait, resulting in 7,779 unannotated unigenes that matched the threshold values for both of the analyses. Among the predicted long non-coding RNAs, one is the homologue of TAS3, a long non-coding RNA precursor of trans-acting small interfering RNAs (ta-siRNAs). The differential expression pattern observed for the selected putative long non-coding RNAs suggests their possible functional role in different floral tissues.

The analysis of the inflorescence miRNome of the orchid Orchis italica reveals a DEF-like MADS-box gene as a new miRNA target.

Plant microRNAs (miRNAs) are small, regulatory non-coding RNAs involved in a wide range of biological processes, from organ development to response to stimuli. In recent years, an increasing number of studies on model plant species have highlighted the evolutionary conservation of a high number of miRNA families and the existence of taxon-specific ones. However, few studies have examined miRNAs in non-model species such as orchids, which are characterized by highly diversified floral structures and pollination strategies. Therefore, we analysed a small RNA library of inflorescence tissue of the Mediterranean orchid Orchis italica to increase the knowledge on miRNAs in a non-model plant species. The high-throughput sequencing and analysis of a small RNA library of inflorescence of O. italica revealed 23 conserved and 161 putative novel miRNA families. Among the putative miRNA targets, experimental validation demonstrated that a DEF-like MADS-box transcript is cleaved by the homolog of miR5179 of O. italica. The presence of conserved miRNA families in the inflorescence of O. italica indicates that the basic developmental flower regulatory mechanisms mediated by miRNAs are maintained through evolution. Because, according to the "orchid code" theory, DEF-like genes exert a key function in the diversification of tepals and lip, the cleavage-mediated inhibitory activity of miR5179 on a OitaDEF-like transcript suggests that, in orchids, miRNAs play an important role in the diversification of the perianth organs.

The AP2-like gene OitaAP2 is alternatively spliced and differentially expressed in inflorescence and vegetative tissues of the orchid Orchis italica.

The AP2/ERF proteins are plant-specific transcription factors involved in multiple regulatory pathways, from plant organ development to response to various environmental stresses. One of the mechanisms that regulates the AP2-like genes involves the microRNA miR172, which controls their activity at the post-transcriptional level. Extensive studies on AP2-like genes are available in many different species; however, in orchids, one of the largest plant families, studies are restricted to a few species, all belonging to the Epidendroideae subfamily. In the present study, we report the isolation of an AP2-like gene in the Mediterranean orchid Orchis italica (Orchidoideae). The OitaAP2 locus includes 10 exons and 9 introns, and its transcript is alternatively spliced, resulting in the long OitaAP2 and the short OitaAP2_ISO isoforms, with the latter skipping exon 9. Both isoforms contain the conserved target site for miR172, whose action is demonstrated by the presence of cleaved OitaAP2 mRNA. The OitaAP2 and OitaAP2_ISO mRNAs are present in the tepals and lip before and after anthesis at different expression levels. In addition, the OitaAP2_ISO isoform is expressed in the ovary before pollination and in the root and stem. The isoform-specific expression pattern suggests a functional differentiation of the OitaAP2 alternatively spliced transcripts. The expression profile of miR172 is complementary to that of the OitaAP2 isoforms in inflorescence tissues before anthesis, whereas after anthesis and in ovary tissue before and after pollination, this relationship disappears, suggesting the existence of OitaAP2 inhibitory mechanisms in these tissues that differ from that involving miR172.

The OitaAG and OitaSTK genes of the orchid Orchis italica: a comparative analysis with other C- and D-class MADS-box genes.

According to the ABCDE model of flower development, the C- and D- class MADS box genes are involved in the formation of male and female reproductive organs (fused to form the column in orchids) and in ovule maturation (triggered by fertilization in orchids). In the present study, we report the isolation of the Orchis italica genes OitaAG and OitaSTK, homologs of the C-class AGAMOUS and the D-class SEEDSTICK genes of Arabidopsis, respectively. Analysis of their expression profiles reveals high levels of mRNA in columns and ovaries, particularly after pollination. However, weak expression is also detectable in the inner tepals (OitaAG) and the lip and root (OitaSTK). This expression profile is only partially overlapping with those reported in other orchid species and may be the consequence of a different evolutionary history of these functional gene classes in orchids. The genomic characterization of the OitaAG and OitaSTK genes shows that a high number of traces of mobile elements are present in introns and could have contributed to the size expansion of some of them (e.g., intron 2 and 3 of OitaAG and intron 3, 4 and 5 of OitaSTK). Nucleotide sequences of intron 1 of the OitaSTK gene and other STK-like genes do not share regulatory motifs, whereas sequence comparison of intron 2 of the OitaAG gene with that of intron 2 of other AG-like genes reveals, for the first time in an orchid species, the presence of conserved cis-regulatory boxes and binding sites for transcription factors that positively (e.g., LEAFY and WUSCHEL) or negatively (e.g., BELLRINGER) regulate the expression of the AG homologs in dicots and monocots.

Expression pattern of two paralogs of the PI/GLO-like locus during Orchis italica (Orchidaceae, Orchidinae) flower development.

The class B MADS-box genes belong to two distinct functional groups: the AP3/DEF-like and the PI/GLO-like sub-families. In orchids, AP3/DEF-like genes are present in four copies, each with a different role in floral organ formation, which is described in the "orchid code" model. Interestingly, the orchid PI/GLO-like genes are present in two copies in Orchidinae, whereas they are described as single copy in the other orchid lineages. The two PI/GLO-like paralogs have site-specific different selective constraints; in addition, they show relaxation of purifying selection when compared to the single-copy lineages. In this study, we present a comparative analysis of the expression patterns of the two PI/GLO-like paralogs, OrcPI and OrcPI2, in floral tissues of Orchis italica in different developmental stages using real-time PCR. The two genes show similar expression profiles in the tissue examined, with differences detectable between immature and mature inflorescence. In all cases, OrcPI2 is expressed at a higher level than OrcPI. Real-time PCR results reveal that the co-expression of the two duplicated loci could have a fully or partially redundant function. The possible evolutionary fate of OrcPI and OrcPI2 is discussed as well as their involvement in ovary development.

The PI/GLO-like locus in orchids: duplication and purifying selection at synonymous sites within Orchidinae (Orchidaceae).

Positive selection and relaxation of purifying constraints after duplication events have driven the functional diversification of gene families involved in development. One example of this occurred within the plant MADS-box genes. The evolution of the orchid flower was driven by duplication events followed by sub- and neo-functionalization of class B DEF-like MADS-box genes, which are present at three to four copies in the orchid genome. In contrast, the orchid PI/GLO-like class B MADS-box genes have been reported thus far as single-copy loci, with the only exception of Habenaria radiata. We isolated a novel PI/GLO-like gene (OrcPI2) in Orchis italica, which is different than the previously characterized OrcPI locus. The presence of two functional paralogs of PI/GLO-like genes in orchids is detectable only within the tribe Orchidinae. Evolutionary analyses revealed an apparent relaxation of purifying selection acting on the two PI/GLO-like paralogs of the Orchidinae when compared to the single-copy PI/GLO-like genes found in other orchid species. Furthermore, by measuring dN/dS (ω) ratios, we show that a high percentage of sites between the two PI/GLO-like paralogs have different evolutionary pressures. Interestingly, the apparent relaxation of selective constraints on the two PI/GLO-like paralogs is due to strong purifying selection at synonymous sites rather than to a high value of nonsynonymous substitution rate. This peculiar evolutionary pattern might be related to molecular processes such as mRNA folding and/or translational efficiency control. These processes could potentially be involved in or predate the functional diversification of the two PI/GLO-like paralogs within Orchidinae.

The metallothionein genes of Mytilus galloprovincialis: genomic organization, tissue expression and evolution.

Recently, increasing interest has been directed to the study of metallothioneins (MTs), which are small proteins that are able to bind metal ions. The induction of MT synthesis after exposure to metal or other environmental contaminants in a large number of aquatic invertebrates makes these proteins good biomarkers in water monitoring programs. Within bivalves, the species Mytilus galloprovincialis and Mytilus edulis represent model organisms for these types of studies, as well as for molecular studies regarding the expression and characterization of MT encoding genes. In the present paper, we focused on the genomic characterization, evolutionary, and tissue-expression analyses of the MT-10, MT-10 Intronless, and MT-20 genes in M. galloprovincialis. The comparison of the genomic sequences showed the presence of long nucleotide stretches within the introns of the MT genes that are conserved between M. galloprovincialis and M. edulis. These non-coding conserved sequences may contain regulatory motifs. Real-Time RT-PCR experiments revealed that, at the basal conditions, the MT-10 and MT-10 Intronless genes are expressed at levels considerably higher than the MT-20 gene, mainly in the digestive gland and gill tissue. The strong induction of the MT-20 gene expression detected in a field-collected sample is associated with the up-regulation of both the MT-10 and MT-10 Intronless genes. Evolutionary analysis revealed signals of localized positive selection that, together with the tissue-expression data, support a possible functional diversification between the MTs encoded by the MT-10 and MT-10 Intronless genes.

The MADS and the Beauty: Genes Involved in the Development of Orchid Flowers.

Since the time of Darwin, biologists have studied the origin and evolution of the Orchidaceae, one of the largest families of flowering plants. In the last two decades, the extreme diversity and specialization of floral morphology and the uncoupled rate of morphological and molecular evolution that have been observed in some orchid species have spurred interest in the study of the genes involved in flower development in this plant family. As part of the complex network of regulatory genes driving the formation of flower organs, the MADS-box represents the most studied gene family, both from functional and evolutionary perspectives. Despite the absence of a published genome for orchids, comparative genetic analyses are clarifying the functional role and the evolutionary pattern of the MADS-box genes in orchids. Various evolutionary forces act on the MADS-box genes in orchids, such as diffuse purifying selection and the relaxation of selective constraints, which sometimes reveals a heterogeneous selective pattern of the coding and non-coding regions. The emerging theory regarding the evolution of floral diversity in orchids proposes that the diversification of the orchid perianth was a consequence of duplication events and changes in the regulatory regions of the MADS-box genes, followed by sub- and neo-functionalization. This specific developmental-genetic code is termed the "orchid code."

Isolation and phylogenetic footprinting analysis of the 5'-regulatory region of the floral homeotic gene OrcPI from Orchis italica (Orchidaceae).

The nucleotide sequences of regulatory elements from homologous genes can be strongly divergent. Phylogenetic footprinting, a comparative analysis of noncoding regions, can detect putative transcription factor binding sites (TFBSs) shared among the regulatory regions of 2 or more homologous genes. These conserved motifs have the potential to serve the same regulatory function in distantly related taxa. We isolated the 5'-noncoding region of the OrcPI gene, a MADS-box transcription factor involved in flower development in Orchis italica, using the thermal asymmetric interlaced polymerase chain reaction technique. This region (comprising 1352 bp) induced transient beta-glucuronidase expression in the petal tissue of white Rosa hybrida flowers and represents the 5'-regulatory sequence of the OrcPI gene. Phylogenetic footprinting analysis detected conserved regions within the 5'-regulatory sequence of OrcPI and the homologous regions of Oryza sativa, Lilium regale, and Arabidopsis thaliana. Some of these sequences are known TFBSs described in databases of plant regulatory elements. Nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the following accession numbers: AF198055 promoter region of the PISTILLATA (PI) gene of A. thaliana; AB094985 cDNA of OrcPI (PI/GLOBOSA [PI/GLO] homologue) of O. italica; AB378089 5'-regulatory region of the OrcPI gene of O. italica; AP008211 putative promoter region of OSMADS2 (PI/GLO homologue) of O. sativa; AP008207 putative promoter region of OSMADS4 (PI/GLO homologue) of O. sativa; and AB158292 putative promoter region of the PI/GLO homologue of L. regale.

The OrcPI locus: genomic organization, expression pattern, and noncoding regions variability in Orchis italica (Orchidaceae) and related species.

OrcPI is a class B MADS-box gene of Orchis italica (Orchidaceae), homologous of the PISTILLATA/GLOBOSA gene isolated in Arabidopsis and Antirrhinum. Its role in determining petals and stamens is conserved in orchids, where it seems to be involved also in other functions, such as flower longevity and ovary development. The present study reports the genomic characterization of the OrcPI locus in O. italica including coding and noncoding regions (introns, 5'- and 3' untranslated regions, and putative promoter). Nucleotide polymorphism distribution confirmed that this gene is subjected to different evolutionary forces, phylogenetic and distance analyses demonstrated that OrcPI is a useful nuclear marker at low taxonomic level in orchids. The expression pattern analysis showed that OrcPI transcripts are present in all the floral structures, undetected in the vegetative tissues, and decreased in the natural senescent flower. Finally, micro-RNAs putative target sites were identified within the OrcPI gene, conserved among orchids.

Genetic structure of Tuber mesentericum Vitt. based on polymorphisms at the ribosomal DNA ITS.

Tuber mesentericum fruit bodies are in increasing demand on the food market and are an important economic resource for southern Italy, their major production area. Because molecular studies on this truffle species are very scarce, we analyzed ITS1 and ITS2 nucleotide variability of 126 ascocarps of T. mesentericum collected in different European areas, mainly southern Italy. The results of haplotype distribution, analysis of molecular variance, and spatial analysis of molecular variance analyses show strong genetic structuring of the samples collected in the different geographic areas, confirmed by parsimony and distance analyses. In particular, the Italian samples seem to be a well-distinguished group.

Molecular evolution of the OrcPI locus in natural populations of Mediterranean orchids.

The evolutionary analysis of OrcPI, the orchid homologue to the PISTILLATA/GLOBOSA gene, was conducted on some Mediterranean orchid species, measuring mean pairwise Ka/Ks ratios and nucleotide variability. Evidence for positive selection was tested using a maximum likelihood approach implemented in PAML, and neutrality tests were conducted to assess deviation from neutral evolution. Data were also examined partitioning the coding region into four regions, corresponding to different functional domains of the protein. The results show that OrcPI is subjected to different evolutionary forces: diffuse purifying selection, localized positive selection or selective sweep, and different partitions of selective constraints.

Nicking activity on pBR322 DNA of ribosome inactivating proteins from Phytolacca dioica L. leaves.

Ribosome-inactivating proteins isolated from Phytolacca dioica L. leaves are rRNA-N-glycosidases, as well as adenine polynucleotide glycosylases. Here we report that some of them cleave supercoiled pBR322 dsDNA, generating relaxed and linear molecules. PD-L1, the glycosylated major form isolated from the winter leaves of adult P . dioica plants, produces both free 3'-OH and 5'-P termini randomly distributed along the DNA molecule, as suggested by labelling experiments with [alpha- 32P]dCTP and [gamma- 32 P]dATP. Moreover, when the reaction is carried out under low-salt conditions, cleavage is observed mainly at a specific site, located downstream of the ampicillin resistance gene (close to position 3200), ending with the deletion of a fragment of approximately 70 nucleotides. This cleavage pattern is similar to that obtained under the same conditions with mung bean nuclease, a single-strand endonuclease. Furthermore, pBR322 DNA treated with PD-L1 shows reduced transforming activity with E . coli HB101 competent cells in comparison to untreated control plasmid DNA.

ISSR markers show differentiation among Italian populations of Asparagus acutifolius L.

BACKGROUND: Asparagus acutifolius L. is a dioecious and native plant species, widely distributed in the Mediterranean Basin. It is known for its fine flavour and could represent an important resource for cultivation programs in desert areas. Few molecular studies have been performed on this species. In the present paper, the ISSR technique was employed to study genetic diversity in Italian A. acutifolius. RESULTS: Twenty-three primers produced a total of 228 polymorphic fragments used to evaluate genetic variation. FST (0.4561) and Theta B (0.4776) values indicate a wide genetic variation among the samples examined. The distance UPGMA tree grouped together the genotypes strictly according to their geographical origin, showing that each sample is genetically structured and can be considered a distinct population. AMOVA analysis further confirmed genetic structuring of the populations. Population-specific fragments were also detected. CONCLUSION: The results suggest that ISSR markers are useful in distinguishing the populations of A. acutifolius according to geographical origin, and confirm the importance of genetic studies for designing germplasm conservation strategies.

Inducible Expression of a Phytolacca heterotepala Ribosome-Inactivating Protein Leads to Enhanced Resistance Against Major Fungal Pathogens in Tobacco.

ABSTRACT Plant genetic engineering has long been considered a valuable tool to fight fungal pathogens because it would limit the economically costly and environmentally undesirable chemical methods of disease control. Ribosome-inactivating proteins (RIPs) are potentially useful for plant defense considering their antiviral and antimicrobial activities but their use is limited by their cytotoxic activity. A new gene coding for an RIP isolated from leaves of Phytolacca heterotepala was expressed in tobacco under the control of the wound-inducible promoter of the bean polygalacturonase-inhibiting protein I gene to increase resistance against different fungal pathogens, because an individual RIP isolated from P. heterotepala showed direct antifungal toxicity. Phenotypically normal transgenic lines infected with Alternaria alternata and Botrytis cinerea showed a significant reduction of leaf damage while reverse transcription-polymerase chain reaction and western analysis indicated the expression of the RIP transgene upon wounding and pathogen attack. This work demonstrates that use of a wound-inducible promoter is useful to limit the accumulation of antimicrobial phytotoxic proteins only in infected areas and that the controlled expression of the PhRIP I gene can be very effective to control fungal pathogens with different phytopathogenic actions.

Isolation of the LFY/FLO homologue in Orchis italica and evolutionary analysis in some European orchids.

It has been suggested that the evolutionary analysis of floral development genes could explain the divergences between the rates of morphological and molecular evolution. The LEAFY (LFY) gene of Arabidopsis thaliana is one of the central regulatory genes in the control of flower development. We have identified the homologue of this gene (OrcLFY) in Orchis italica using 5'/3'RACE and primer walking, and compared the coding sequences of several orchid species. We analyzed nonsynonymous and synonymous substitution rates between the OrcLFY coding regions of 14 species, and performed a McDonald-Kreitman test on Orchis morio and Orchis laxiflora populations, showing that purifying selection is acting on this gene in these orchids. We have performed a phylogenetic analysis showing that OrcLFY is a new useful marker to reconstruct molecular phylogenies at low taxonomic levels.