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Generalizable EEG computer programming models along with naturalistic audiovisual stimulating elements.
However, endogenous xylem vessel cell formation was not affected in the seiv mutants. Therefore, the seiv mutations identified in this study have repressive effects on cell differentiation in shoot meristematic regions, resulting in inhibited ectopic xylem vessel cell differentiation.Most leguminous plants produce (-)-type enantiomers of pterocarpans as the phytoalexin, but pea (Pisum sativum L.) produces the opposite stereoisomer of pterocarpan, (+)-pisatin. Biosynthesis of (-)-pterocarpan skeleton is completely characterized at the molecular level, and pterocarpan synthase (PTS), a dirigent (DIR) domain-containing protein, participates in the last dehydration reaction. Similarly, isoflav-3-ene, a precursor of (+)-pisatin, is likely to be biosynthesized by the DIR-mediated dehydration reaction; however the biosynthesis is still unknown. In the present study, we screened PTS homologs based on RNA-sequence data from (+)-pisatin-producing pea seedlings and demonstrated that one of the candidates encodes isoflav-3-ene synthase (I3S). Real-time PCR analysis revealed that transcripts of I3S, in addition to other genes involved in the (+)-pisatin pathway, transiently accumulated in pea upon elicitation prior to the maximum accumulation of (+)-pisatin. I3S orthologs were also found in soybean and Lotus japonicus that are not known to accumulate (+)-pterocarpan, and the catalytic function of gene products was verified to be I3S by the in vitro enzyme assay. Incubation of the crude extract of elicited soybean cells with isoflav-3-ene yielded coumestrol, suggesting that isoflav-3-ene is a precursor of coumestrol biosynthesis in soybean.Anthraquinones are widely distributed in various organisms and known as bioactive ingredients. Some of the anthraquinones accumulate as glycosides in higher plants. Plant secondary product glycosyltransferases (PSPGs) are the well-characterized enzymes producing plant secondary metabolite glycosides. However, PSPGs involved in the formation of anthraquinone glycosides remains unclear. The rhizome of Rheum palmatum contains anthraquinones as laxative agents, some of which are accumulated as glucosides. We isolated a glucosyltransferase, R. palmatum UDP-glycosyltransferase (RpUGT) 1 from the rhizome of R. palmatum, and characterized functionally. RpUGT1 glucosylated emodin yielding emodin-6-O-glucoside, and it also glucosylated rhapontigenin, a compound belonging to stilbenes, yielding rhaponticin. The expression patterns of RpUGT1 and the accumulation of the metabolites revealed that RpUGT1 contributes to the production of these glucosides in R. palmatum. learn more These results may provide important information for the substrate recognition of the PSPGs for anthraquinones and stilbenes.Cytoplasmic male sterility (CMS) is a trait that produces nonfunctional pollen caused by the interaction between mitochondrial and nuclear genes. In Chinese-wild (CW) type CMS, CWA, in rice (Oryza sativa L.), its mitochondria enhance the expression of the nuclear gene RETROGRADE-REGULATED MALE STERILITY (RMS), which causes pollen abortion. Fertility is recovered when its expression decreases in a restorer line, CWR. The expression of RMS is controlled by the single nucleotide polymorphism (SNP) located in the promoter region 2,286 bp upstream of the start codon of RMS. However, another gene, PPR2, which encodes pentatricopeptide repeat-domain containing protein, is predicted in the reverse strand of this region and a premature stop codon is created in CWR by the SNP. To prove RMS is directly involved in restoring fertility of CW-CMS, we introduced mutations into RMS and PPR2 using CRISPR/Cas9. Fertility was recovered in the genome-edited CMS plants with reduced expression of RMS and unaltered expression of PPR2, when the mutation was introduced in the promoter regions of RMS within or outside the coding sequence (CDS) of PPR2. Fertility restoration was not obtained when the mutation was introduced within the CDS of RMS. Our results demonstrated that PPR2 is not responsible for fertility restoration, and fertility was recovered by reduced expression of RMS, providing us with a new artificial fertility restorer line for agronomical use.Growth of biomass for lignocellulosic biofuels and biomaterials may take place on land unsuitable for foods, meaning the biomass plants are exposed to increased abiotic stresses. Thus, the understanding how this affects biomass composition and quality is important for downstream bioprocessing. Here, we analyzed the effect of drought and salt stress on cell wall biosynthesis in young shoots and xylem tissues of Populus trichocarpa using transcriptomic and biochemical methods. Following exposure to abiotic stress, stem tissues reduced vessel sizes, and young shoots increased xylem formation. Compositional analyses revealed a reduction in the total amount of cell wall polysaccharides. In contrast, the total lignin amount was unchanged, while the ratio of S/G lignin was significantly decreased in young shoots. Consistent with these observations, transcriptome analyses show that the expression of a subset of cell wall-related genes is tightly regulated by drought and salt stresses. In particular, the expression of a part of genes encoding key enzymes for S-lignin biosynthesis, caffeic acid O-methyltransferase and ferulate 5-hydroxylase, was decreased, suggesting the lower S/G ratio could be partly attributed to the down-regulation of these genes. Together, our data identifies a transcriptional abiotic stress response strategy in poplar, which results in adaptive changes to the plant cell wall.Statistical interferometric technique (SIT) is a highly sensitive, high speed non-contact, and non-destructive optical technique developed by our group capable of measuring instantaeoues sub-nanometer displacements. SIT applied to plant leaf elongation revealed nanometric intrinsic fluctuaitons (NIF) that are robust and sensitive to variations in the environment making NIF as a measure of healthiness of the plants. In this study, exogenous plant hormones, auxin (2,4-dichlorophenoxyacetic acid-2,4-D), and gibberellic acid (GA3), along with an auxin transport inhibitor 2,3,5-triiodobenzoic acid-TIBA, that affect plant growth were used to investigate their effects on NIF. Rice (Oriza sativa) seedlings were used, and their roots were exposed to 1, 2, and 4 µM 2,4-D, and the auxin transport inhibitor, TIBA, of 10, and 20 µM for 22 h and GA3 solution of different concentrations of 10, 40, and 100 µM for 5 h. Results showed significant increment in NIF for 1 µM and reduction for 4 µM 2,4-D while applicaiton of both 10, and 20 µM TIBA led to reduction in NIF.
My Website: https://www.selleckchem.com/products/molidustat-(bay85-3934).html
However, endogenous xylem vessel cell formation was not affected in the seiv mutants. Therefore, the seiv mutations identified in this study have repressive effects on cell differentiation in shoot meristematic regions, resulting in inhibited ectopic xylem vessel cell differentiation.Most leguminous plants produce (-)-type enantiomers of pterocarpans as the phytoalexin, but pea (Pisum sativum L.) produces the opposite stereoisomer of pterocarpan, (+)-pisatin. Biosynthesis of (-)-pterocarpan skeleton is completely characterized at the molecular level, and pterocarpan synthase (PTS), a dirigent (DIR) domain-containing protein, participates in the last dehydration reaction. Similarly, isoflav-3-ene, a precursor of (+)-pisatin, is likely to be biosynthesized by the DIR-mediated dehydration reaction; however the biosynthesis is still unknown. In the present study, we screened PTS homologs based on RNA-sequence data from (+)-pisatin-producing pea seedlings and demonstrated that one of the candidates encodes isoflav-3-ene synthase (I3S). Real-time PCR analysis revealed that transcripts of I3S, in addition to other genes involved in the (+)-pisatin pathway, transiently accumulated in pea upon elicitation prior to the maximum accumulation of (+)-pisatin. I3S orthologs were also found in soybean and Lotus japonicus that are not known to accumulate (+)-pterocarpan, and the catalytic function of gene products was verified to be I3S by the in vitro enzyme assay. Incubation of the crude extract of elicited soybean cells with isoflav-3-ene yielded coumestrol, suggesting that isoflav-3-ene is a precursor of coumestrol biosynthesis in soybean.Anthraquinones are widely distributed in various organisms and known as bioactive ingredients. Some of the anthraquinones accumulate as glycosides in higher plants. Plant secondary product glycosyltransferases (PSPGs) are the well-characterized enzymes producing plant secondary metabolite glycosides. However, PSPGs involved in the formation of anthraquinone glycosides remains unclear. The rhizome of Rheum palmatum contains anthraquinones as laxative agents, some of which are accumulated as glucosides. We isolated a glucosyltransferase, R. palmatum UDP-glycosyltransferase (RpUGT) 1 from the rhizome of R. palmatum, and characterized functionally. RpUGT1 glucosylated emodin yielding emodin-6-O-glucoside, and it also glucosylated rhapontigenin, a compound belonging to stilbenes, yielding rhaponticin. The expression patterns of RpUGT1 and the accumulation of the metabolites revealed that RpUGT1 contributes to the production of these glucosides in R. palmatum. learn more These results may provide important information for the substrate recognition of the PSPGs for anthraquinones and stilbenes.Cytoplasmic male sterility (CMS) is a trait that produces nonfunctional pollen caused by the interaction between mitochondrial and nuclear genes. In Chinese-wild (CW) type CMS, CWA, in rice (Oryza sativa L.), its mitochondria enhance the expression of the nuclear gene RETROGRADE-REGULATED MALE STERILITY (RMS), which causes pollen abortion. Fertility is recovered when its expression decreases in a restorer line, CWR. The expression of RMS is controlled by the single nucleotide polymorphism (SNP) located in the promoter region 2,286 bp upstream of the start codon of RMS. However, another gene, PPR2, which encodes pentatricopeptide repeat-domain containing protein, is predicted in the reverse strand of this region and a premature stop codon is created in CWR by the SNP. To prove RMS is directly involved in restoring fertility of CW-CMS, we introduced mutations into RMS and PPR2 using CRISPR/Cas9. Fertility was recovered in the genome-edited CMS plants with reduced expression of RMS and unaltered expression of PPR2, when the mutation was introduced in the promoter regions of RMS within or outside the coding sequence (CDS) of PPR2. Fertility restoration was not obtained when the mutation was introduced within the CDS of RMS. Our results demonstrated that PPR2 is not responsible for fertility restoration, and fertility was recovered by reduced expression of RMS, providing us with a new artificial fertility restorer line for agronomical use.Growth of biomass for lignocellulosic biofuels and biomaterials may take place on land unsuitable for foods, meaning the biomass plants are exposed to increased abiotic stresses. Thus, the understanding how this affects biomass composition and quality is important for downstream bioprocessing. Here, we analyzed the effect of drought and salt stress on cell wall biosynthesis in young shoots and xylem tissues of Populus trichocarpa using transcriptomic and biochemical methods. Following exposure to abiotic stress, stem tissues reduced vessel sizes, and young shoots increased xylem formation. Compositional analyses revealed a reduction in the total amount of cell wall polysaccharides. In contrast, the total lignin amount was unchanged, while the ratio of S/G lignin was significantly decreased in young shoots. Consistent with these observations, transcriptome analyses show that the expression of a subset of cell wall-related genes is tightly regulated by drought and salt stresses. In particular, the expression of a part of genes encoding key enzymes for S-lignin biosynthesis, caffeic acid O-methyltransferase and ferulate 5-hydroxylase, was decreased, suggesting the lower S/G ratio could be partly attributed to the down-regulation of these genes. Together, our data identifies a transcriptional abiotic stress response strategy in poplar, which results in adaptive changes to the plant cell wall.Statistical interferometric technique (SIT) is a highly sensitive, high speed non-contact, and non-destructive optical technique developed by our group capable of measuring instantaeoues sub-nanometer displacements. SIT applied to plant leaf elongation revealed nanometric intrinsic fluctuaitons (NIF) that are robust and sensitive to variations in the environment making NIF as a measure of healthiness of the plants. In this study, exogenous plant hormones, auxin (2,4-dichlorophenoxyacetic acid-2,4-D), and gibberellic acid (GA3), along with an auxin transport inhibitor 2,3,5-triiodobenzoic acid-TIBA, that affect plant growth were used to investigate their effects on NIF. Rice (Oriza sativa) seedlings were used, and their roots were exposed to 1, 2, and 4 µM 2,4-D, and the auxin transport inhibitor, TIBA, of 10, and 20 µM for 22 h and GA3 solution of different concentrations of 10, 40, and 100 µM for 5 h. Results showed significant increment in NIF for 1 µM and reduction for 4 µM 2,4-D while applicaiton of both 10, and 20 µM TIBA led to reduction in NIF.
My Website: https://www.selleckchem.com/products/molidustat-(bay85-3934).html
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