Project description:Many vegetable crops of Brassica rapa are characterized by their typical types of leaf curvature. Leaf curvature in the right direction and to the proper degree is important for the yield and quality of green vegetable products, when cultivated under stress conditions. Recent research has unveiled some of the roles of miRNAs in Brassica crops such as how they regulate the timing of leafy head initiation and shape of the leafy head. However, the molecular mechanism underlying the variability in leaf curvature in B. rapa remains unclear. We tested the hypothesis that the leaf curvature of B. rapa is affected by miRNA levels. On the basis of leaf phenotyping, 56 B. rapa accessions were classified into five leaf curvature types, some of which were comparable to miRNA mutants of Arabidopsis thaliana in phenotype. Higher levels of miR166 and miR319a expression were associated with downward curvature and wavy margins, respectively. Overexpression of the Brp-MIR166g-1 gene caused rosette leaves to change from flat to downward curving and folding leaves to change from upward curving to flat, leading to the decrease in the number of incurved leaves and size of the leafy head. Our results reveal that miRNAs affect the types of leaf curvature in B. rapa. These findings provide insight into the relationship between miRNAs and variation in leaf curvature.

Project description:The developmental functions of SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) 10 have been extensively studied in Arabidopsis, but SPL10's role in regulating leaf curvature has not been well characterized. In this study, we observed an upward-curling leaf phenotype upon overexpression of a miR156/157-resistant version of SPL10 (rSPL10). DNA affinity purification sequencing (DAP-seq), RNA-seq, and transient transactivation assays revealed that SPL10 binds to the promoter of REVOLUTA (REV). Consistent with binding assays, overexpression of a miR165/166-resistant version of REV (rREV) in WT plants caused an upward-curling leaf phenotype. Conversely, overexpression of rSPL10 in a rev-6 mutant couldn't rescue the downward-curling leaf phenotype of rev-6. Notably, SPL10 physically interacts with REV, attenuating the upward-curling leaf phenotype of rREV mutants, suggesting a role as a molecular rheostat to prevent overamplification of REV transcripts. Furthermore, overexpression of the BrpREV-1 gene caused rosette leaves to change from flat to upward curving and accelerated heading in Chinese cabbage. Taken together, our findings identify the role of the SPL10-REV module in regulating leaf curvature in Arabidopsis and the crucial functions of BrpREV-1 in the heading of Chinese cabbage.

Project description:In this study, the feasibility of classifying soybean frogeye leaf spot (FLS) is investigated. Leaf images and hyperspectral reflectance data of healthy and FLS diseased soybean leaves were acquired. First, image processing was used to classify FLS to create a reference for subsequent analysis of hyperspectral data. Then, dimensionality reduction methods of hyperspectral data were used to obtain the relevant information pertaining to FLS. Three single methods, namely spectral index (SI), principal component analysis (PCA), and competitive adaptive reweighted sampling (CARS), along with a PCA and SI combined method, were included. PCA was used to select the effective principal components (PCs), and evaluate SIs. Characteristic wavelengths (CWs) were selected using CARS. Finally, the full wavelengths, CWs, effective PCs, SIs, and significant SIs were divided into 14 datasets (DS1-DS14) and used as inputs to build the classification models. Models' performances were evaluated based on the classification accuracy for both the overall and individual classes. Our results suggest that the FLS comprised of five classes based on the proportion of total leaf surface covered with FLS. In the PCA and SI combination model, 5 PCs and 20 SIs with higher weight coefficient of each PC were extracted. For hyperspectral data, 20 CWs and 26 effective PCs were also selected. Out of the 14 datasets, the model input variables provided by five datasets (DS2, DS3, DS4, DS10, and DS11) were more superior than those of full wavelengths (DS1) both in support vector machine (SVM) and least squares support vector machine (LS-SVM) classifiers. The models developed using these five datasets achieved overall accuracies ranging from 91.8% to 94.5% in SVM, and 94.5% to 97.3% in LS-SVM. In addition, they improved the classification accuracies by 0.9% to 3.6% (SVM) and 0.9% to 3.7% (LS-SVM).

Project description:This article introduces Arabica coffee leaf datasets known as JMuBEN and JMuBEN2. Image acquisition was done in Mutira coffee plantation in Kirinyaga county-Kenya under real-world conditions using a digital camera and with the help of a pathologist. JMuBEN dataset contains three compressed folders with images inside. The first file contains 7682 images of Cerscospora, the second contains 8337 images of rust and the last one contains 6572 images of Phoma. JMuBEN2 contains two compressed files where the first file contains 16,979 images of Miner while the other contains 18,985 images of healthy leaves. In total, the dataset contains 58,555 leaf images spread across five classes (Phoma, Cescospora, Rust, Healthy, Miner,) with annotations regarding the state of the leaves and the disease names. The Arabica datasets contain images that facilitates training and validation during the utilization of deep learning algorithms for coffee plant leaf disease recognition and classification. The dataset is publicly and freely available at https://data.mendeley.com/datasets/tgv3zb82nd/1 and https://data.mendeley.com/datasets/t2r6rszp5c/1 respectively.

Project description:Leaf development is a complex process and factors such as size, shape, curvature, compounding, and texture determine the final leaf morphology. MicroRNA160 is one of the crucial players that has been shown to regulate lamina formation and compounding in tomato. In this study, we show that miR160 also regulates leaf curvature in potato. miR160 targets a group of Auxin Response Factors - StARF10, StARF16, and StARF17 - that are proposed to function majorly as repressors of auxin signaling. We observed that overexpression of miR160 (miR160-OE) results in decrease in the levels of these ARFs along with hypersensitivity to exogenous auxin treatment, whereas knockdown of miR160 (miR160-KD) causes increased ARF levels and auxin hyposensitivity. The leaves of miR160-OE plants have a high positive curvature, but of miR160-KD plants are flattened compared to wildtype. A prolonged activation of cell cycle - as indicated by increased levels of StCYCLIND3;2 - in the center region of miR160-OE leaves appears to have caused this positive curvature. However, a comparable StTCP4 activity at both center and margin regions of miR160-KD leaves could be the cause for its flattened leaf phenotype. In summary, we show that miR160 plays an important role in regulating leaf curvature in potato plants.

Project description:The LBD (Lateral Organ Boundaries Domain) family are a new group of plant-specific genes, which encode a class of transcription factors containing conserved Lateral Organization Boundary (LOB) domains, and play an important role in regulating the adaxial-abaxial polarity of plant leaves. In Arabidopsis thaliana, ASYMMETRIC LEAVES 2 (AS2) has a typical LOB domain and is involved in determining the adaxial cell fate. In this study, we isolated the BcAS2 gene from the pak choi cultivar "NHCC001", and analyzed its expression pattern. The results showed that the BcAS2 encoded a protein made up of 202 amino acid residues which were located in the nucleus and cytomembrane. The Yeast two-hybrid system (Y2H) assay indicated that BcAS2 interacts with BcAS1-1 and BcAS1-2 (the homologous genes of AS1 gene in pak choi). In the transgenic Arabidopsis thaliana that overexpressed BcAS2 gene, it presented an abnormal phenotype with a curly shape. Taken together, our findings not only validate the function of BcAS2 in leaf development in Arabidopsis thaliana, but also contribute in unravelling the molecular regulatory mechanism of BcAS2, which fulfills a special role by forming complexes with BcAS1-1/2 in the establishment of the adaxial-abaxial polarity of the lateral organs in pak choi.

Project description:Mutations in the CINCINNATA gene in Antirrhinum and its orthologues in Arabidopsis cause negative surface curvature in leaves due to excess marginal growth. CIN-like genes code for TCP transcription factors and are expressed in a broad zone of a growing leaf somewhat distal to the proliferation zone. Although a few TCP targets are known, the role of CIN-like TCP genes in regulating leaf curvature has remained unclear. We have compared the global transcription profile of wild type and cincinnata mutant to identify its targets. By combining DNA-protein interaction, chromatin immunoprecipitation and RNA in situ hybridization, we show that CIN maintains surface flatness by regulating signaling or level of major plant hormones. CIN promotes cytokinin signaling directly and GA level indirectly, in accelerating maturity in leaf cells along the tip-to-base direction. In addition, CIN suppresses auxin signaling more at the margin than centre by establishing a margin-to-medial expression gradient of a homologue of the auxin suppressor IAA3. Our results uncover an underlying mechanism in a developing leaf that controls maturity of leaf and its surface curvature. Considering the conservation of CIN-like genes and their function in leaf morphogenesis in multiple plant species, it is likely that such mechanism is evolutionarily conserved.

Project description:Mutations in the CINCINNATA gene in Antirrhinum and its orthologues in Arabidopsis cause negative surface curvature in leaves due to excess marginal growth. CIN-like genes code for TCP transcription factors and are expressed in a broad zone of a growing leaf somewhat distal to the proliferation zone. Although a few TCP targets are known, the role of CIN-like TCP genes in regulating leaf curvature has remained unclear. We have compared the global transcription profile of wild type and cincinnata mutant to identify its targets. By combining DNA-protein interaction, chromatin immunoprecipitation and RNA in situ hybridization, we show that CIN maintains surface flatness by regulating signaling or level of major plant hormones. CIN promotes cytokinin signaling directly and GA level indirectly, in accelerating maturity in leaf cells along the tip-to-base direction. In addition, CIN suppresses auxin signaling more at the margin than centre by establishing a margin-to-medial expression gradient of a homologue of the auxin suppressor IAA3. Our results uncover an underlying mechanism in a developing leaf that controls maturity of leaf and its surface curvature. Considering the conservation of CIN-like genes and their function in leaf morphogenesis in multiple plant species, it is likely that such mechanism is evolutionarily conserved. Two color Experiment, Organism: Arabidopsis thaliana and Antirrhinum. Arrays Used: 1. Agilent Arabidopsis thaliana Gene expression Microarray 22k (AMADID: 013324) 2. Agilent Custom Arabidopsis thaliana 4x44k Gene Expression (AMADID: 015226) 3. Agilent custom Antirrhinum 4x44k Gene expression (AMADID: 016341) designed by Genotypic Technology Private Limited.

Project description:This classification method for quantification of waterbird nutrient cycling guilds focuses on the location of feeding habitats and the quantitative role of waterbirds in the nutrient and energy flow for inland aquatic ecosystems. The classification is a complex integration of the taxonomic, trophic, feeding and daily habitat use patterns based on most relevant previous studies and reference data in relation with the ecology and nutrient cycling of waterbirds: A) Net-importer guild: includes species which feed mostly outside inland waters in the terrestrial ecosystems and wetlands, but use water bodies as gathering and roosting sites (geese, cranes). B) Importer-exporter guild: includes species which feed both outside and in of inland waters and wetlands (dabbling ducks and gulls). C) Net-exporter guild: includes species which feed mostly on inland waters and wetlands (diving ducks, grebes, cormorants, small herons, most shorebirds). Conclusion of main findings that method can significantly contribute to the better understanding how waterbirds can effect the environment and the guilds as ecological indicators quantify their ecosystem functions, services.•Net-importer guild includes species which feed mostly outside the inland waters•Importer-exporter guild includes species which feed both in- and outside inland waters•Net-exporter guild includes species which feed mostly inside the inland waters.

Project description:Bacteriophages have key roles in microbial communities, to a large extent shaping the taxonomic and functional composition of the microbiome, but data on the connections between phage diversity and the composition of communities are scarce. Using taxon-specific marker genes, we identified and monitored 20 viral taxa in 252 human gut metagenomic samples, mostly at the level of genera. On average, five phage taxa were identified in each sample, with up to three of these being highly abundant. The abundances of most phage taxa vary by up to four orders of magnitude between the samples, and several taxa that are highly abundant in some samples are absent in others. Significant correlations exist between the abundances of some phage taxa and human host metadata: for example, 'Group 936 lactococcal phages' are more prevalent and abundant in Danish samples than in samples from Spain or the United States of America. Quantification of phages that exist as integrated prophages revealed that the abundance profiles of prophages are highly individual-specific and remain unique to an individual over a 1-year time period, and prediction of prophage lysis across the samples identified hundreds of prophages that are apparently active in the gut and vary across the samples, in terms of presence and lytic state. Finally, a prophage-host network of the human gut was established and includes numerous novel host-phage associations.