Differences between male and female leaves of Schisandra sphenanthera: based on RNA-Seq / 中国中药杂志

Schisandra sphenanthera is dioecious and only the fruits of female plants can be used as medicine and food. It is of great significance for the cultivation and production of S. sphenanthera to explore the differences between male and female plants at the non-flowering stage and develop the identification markers at non-flowering or seedling stage. In this study, the transcriptome of male and female leaves of S. sphenanthera at the non-flowering stage was sequenced by Illumina high-throughput sequencing technology and analyzed based on bioinformatics. A total of 236 682 transcripts were assembled by Trinity software and 171 588 were chosen as unigenes. Finally, 1 525 differentially expressed genes(DEGs) were identified, with 458 up-regulated and 1 067 down-regulated in female lea-ves. The down-regulated genes mainly involve photosynthesis, photosynthesis-antenna protein, carbon fixation in photosynthetic or-ganisms, and other pathways. Real-time quantitative PCR(qPCR) identified two genes between male and female leaves and one of them was a HVA22-like gene related to floral organ development and abscisic acid(ABA). Enzyme linked immunosorbent assay(ELISA) was applied to determine the content of ABA, auxin, gibberellin, and zeatin riboside(ZR) in leaves of S. sphenanthera. The results showed that the content of ABA and ZR in male leaves was significantly higher than that in female leaves. The involvement of down-regulated genes in female leaves in the photosynthesis pathway and the significant differences in the content of endogenous hormones between male and female leaves lay a scientific basis for analyzing the factors affecting sex differentiation of S. sphenanthera.

Transcriptome analysis of female and male flower buds of Idesia polycarpa Maxim. var. vestita Diels

Background: Idesia polycarpa Maxim. var. vestita Diels, a dioecious plant, is widely used for biodiesel due to the high oil content of its fruits. However, it is hard to distinguish its sex in the seedling stage, which makes breeding and production problematic as only the female tree can produce fruits, and the mechanisms underlying sex determination and differentiation remain unknown due to the lack of available genomic and transcriptomic information. To begin addressing this issue, we performed the transcriptome analysis of its female and male flower. Results: 28,668,977 and 22,227,992 clean reads were obtained from the female and male cDNA libraries, respectively. After quality checks and de novo assembly, a total of 84,213 unigenes with an average length of 1179 bp were generated and 65,972 unigenes (78.34%) could be matched in at least one of the NR, NT, Swiss-Prot, COG, KEGG and GO databases. Functional annotation of the unigenes uncovered diverse biological functions and processes, including reproduction and developmental process, which may play roles in sex determination and differentiation. The Kyoto Encyclopedia of Genes and Genomes pathway analysis showed many unigenes annotated as metabolic pathways, biosynthesis of secondary metabolites pathways, plant­ pathogen interaction, and plant hormone signal transduction. Moreover, 29,953 simple sequence repeats were identified using the microsatellite software. Conclusion: This work provides the first detailed transcriptome analysis of female and male flower of I. polycarpa and lays foundations for future studies on the molecular mechanisms underlying flower bud development of I. polycarpa.

Anatomía Floral de Peristethium leptostachyum (Loranthaceae) / Floral anatomy of Peristethium leptostachyum (Loranthaceae)

ResumenPeristethium leptostachyum es una especie hemiparásita de la familia Loranthaceae, distribuida en Colombia, Costa Rica, Ecuador, Perú, Venezuela y Panamá. Previamente tratada como Struthanthus leptostachyus, la especie fuerecientemente fue reubicada en Peristethium junto con otras que previamente estaban en los géneros Cladocolea y Struthanthus. La decisión de reconocer a Peristethium como género es controversial y fue tomada con base en caracteres de la inflorescencia y de la flor; en tanto que la monofilia de los tres géneros nombrados es incierta. En esta investigación se estudió la morfoanatomía de flores e inflorescencias de Peristethium leptostachyum, detallando la estructura del androceo y gineceo, así como los procesos de microgametogénesis y megagametogénesis; adicionalmente se realizaron comparaciones con especies afines y precisiones en relación con las diagnosis previas. Se recolectaron flores en diversas fases de desarrollo en Santa María (Boyacá-Colombia), se prepararon y analizaron bajo microscopio secciones histológicas teñidas con astrabluefucsina, además de disecciones bajo estereomicroscopio. Los resultados mostraron que P. leptostachyum comparte caracteres inflorenciales con Cladocolea (inflorescencia determinada, flor terminal ebracteada), pero también con Struthanthus (pares de tríadas a lo largo del eje, brácteas caducas y flores actinomorfas). Las flores de P. Leptostachyum de Santa María son claramente hermafroditas, con androceos y gineceos totalmente desarrollados; lo cual contradice la descripción hecha por Kuijt que reporta una condición dioica para esta especie. El androceo resultó afín al de Struthanthus vulgaris, con tapetum glandular y microsporogénesis simultánea; en contraste, Cladocolea loniceroides presenta tapetum periplasmodial y microesporogénesis sucesiva. El gineceo de P. leptostachyum, al igual que en Cladocolea, Struthanthus y Phthirusa, es unilocular con mamelón y tejido arquesporial orientado hacia el estilo, el cual es sólido y con tejido amilífero. P. leptostachyum es afín a Cladocolea loniceroides y difiere de Struthanthus vulgaris por presentar varios sacos embrionarios y pelvis (hipostasa) no lignificada. La presencia de un canal estilar sólido se propone como sinapomorfía de la tribu Psittacanthinae. Dado que P. Leptostachyum comparte caracteres anatómicos florales tanto con Cladocolea como con Strutanthus, la relación entre estos tres géneros no queda resuelta, se requieren estudios filogenéticos para establecer esta relación y poner a prueba las hipótesis de monofilia de cada uno de ellos.

AbstractPeristethium leptostachyum is a hemiparasite species of the family Loranthaceae, distributed in Colombia, Costa Rica, Ecuador, Peru, Venezuela and Panama. Previously treated as Struthanthus leptostachyus, the species was recently transferred to Peristethium together with other species of Cladocolea and Struthanthus. The present research describes the inflorescence and floral morphoanatomy of Peristethium leptostachyum, detailing the structure of the androecium and gynoecium and the processes of microgametogenesis and megagametogenesis, thus allowing comparison with Struthanthus and Cladocolea. Flowering material was collected in February and August 2012, in Santa María, Boyacá, Colombia. Histological sections were prepared and stained with astrablue-fuchsin and floral dissections were performed under a stereomicroscope. Peristethium leptostachyum shares inflorescence characters with Cladocolea (determinate inflorescence, ebracteate terminal flower), but also with Struthanthus (pairs of triads along the axis, deciduous bracts and actinomorphic flowers). The flowers of P. leptostachyum from Santa María are clearly hermaphrodites with androecium and gynoecium fully developed. This observation contradicts the description by Kuijt who reported this species to be dioecious. The androecium was observed to be similar to that of Struthanthus vulgaris, with a glandular tapetum and simultaneous microsporogenesis; in contrast, Cladocolea loniceroides has a periplasmodial tapetum and successive microsporogenesis. The gynoecium of P. leptostachyum, like that of Cladocolea, Struthanthus and Phthirusa, has a unilocular ovary with a mamelon and arquesporial tissue isoriented towards the style, which in turn is solid and amyliferous. Peristethium leptostachyum is similar to Cladocolea loniceroides and differs from Strutanthus vulgaris in presenting multiple embryo sacs and an unlignified pelvis (hipostase). The presence of a solid stylar canal is proposed as a synapomorphy of the tribe Psittacanthinae. Given that P. leptostachyum shares characters with both Cladocolea and Struthanthus generic placement cannot be clearly determined on the basis of anatomical evidence. Phylogenetic studies that include representative species of all three genera are desirable to test hypotheses of monophyly. The sexual system observed here in P. leptostachyum is different from that reported by Kuijt and more studies are needed to identify the factors (geographic, ecological, etc.) that influence this variation. Rev. Biol. Trop. 64 (1): 341-352. Epub 2016 March 01.