Project description:Amberjack Blue Hole

Project description:Light plays a key role in plant growth, development and response to adversity. Plants perceive different wavelengths of light in the environment through various photoreceptors and regulate plant growth and development through light signaling. However, there are fewer studies on the effects of different light qualities on the growth and development of tree species at high altitude. In the study, the effects of blue and green light treatments on the growth and development of Populus cuttings were investigated. Blue light treatment significantly increased the high growth of Populus, while green light treatment showed the opposite trend. Consequently, blue light treatment demonstrated growth promotion by increasing the growth hormone content of Populus. This implies that Populus may benefit from blue light therapy in terms of growth and development, which may be helpful for further research into the introduction and cultivation of poplar species in high altitude regions.

Project description:The study investigated protein dynamics throughout fruit developmental and ripening process of blue-colored bilberry. The proteomic approach was applied to study at four different ripening stages, S2-small green fruit, S3- large green fruit, S4- purple ripening fruit, S5- ripe, blue fruit of bilberry. Regulatory network of plant hormones and physiological processes occurring during bilberry fruit ripening was revealed for the first time. The white-colored mutant bilberry, at the ripe stage, was also investigated differences compared to wild, blue-colored berries.

Project description:We utilized the eyeless sea anemone, Nematostella vectensis, to quantify gene expression differences between different colors of light (red, green, blue) and in constant darkness through comparisons of 96 transcriptomes

Project description:MicroRNAs (miRNAs) are a class of endogenous non-coding small RNAs that regulate targeted mRNAs by degrading or repressing translation, considered as post-transcrption regulators. So far, a large number of miRNAs have been discovered in model plants, but little information is available on miRNAs in banana. In this study, by sequencing the small RNA (sRNA) transcriptomes of Fusarium wilt resistant and susceptible banana varieties, 139 members in 38 miRNA families were discovered, and six out of eight new miRNAs were confirmed by RT-PCR. According to the analysis of sRNA transcriptome data and qRT-PCR verification, some miRNAs were differentially expressed between Fusarium wilt resistant and susceptible banana varieties. Two hundred and ninety-nine and 31 target genes were predicted based on the draft maps of banana B genome and Fusarium oxysporum (FOC1, FOC4) genomes respectively. Specifically, two important pathogenic genes in Fusarium oxysporum genomes, feruloyl esterase gene and proline iminopeptidase gene, were targeted by banana miRNAs. These novel findings may provide a new strategy for the prevention and control of Fusarium wilt in banana.

Project description:Glaucopsyche alexis (green-underside blue)

Project description:Blueberry is one of the most desirable and nutritious fruits. During fruit development, the blueberry’s organoleptic properties and phytonutrient composition are ever-changing [1]. Blueberry fruit development is typically described in five phases: pads, cups, green, pink, and blue (ripe) [2]. The former two phases are referred to as the initial “expansion”. During expansion, young fruit is generally hard, dark green and distinguishable by size [3]. The latter three phases are referred to as maturation. Green fruit are hard and fully rounded green berries; pink berries are partially pigmented; blue (ripe) berries are fully colored and soft. Fruit maturation has attracted considerable research attention, and typically, the characteristics fruit softening, coloring, and sweetening are assessed [4].

Project description:SUUR protein was found to be a major component of three repressive chromatin states named BLACK, BLUE and GREEN chromatins. Here we addressed a question of developmental dynamics of these chromatin states using SUUR as a marker. SUUR binding in larval salivary glands, brains and 12-14 hours embryos was determined using DamID technique.

Project description:Diversity hotspot and unique community structure of foraminifera in the world's deepest marine blue hole-Sansha Yongle Blue Hole

Project description:Fungi diversity in the Sansha Yongle Blue Hole