The White Clover TrMYB33-TrSAMS1 Module Contributes to Drought Tolerance by Modulation of Spermidine Biosynthesis via an ABA-Dependent Pathway.

Spermidine is well known to accumulate in plants exposed to drought, but the regulatory network associated with its biosynthesis and accumulation and the underlying molecular mechanisms remain unclear. Here, we demonstrated that the TrMYB33 relayed the ABA signal to modulate drought-induced spermidine production by directly regulating the expression of , which encodes an S-adenosylmethionine synthase. This gene was identified by transcriptome and expression analysis in .

First report of leaf spot caused by Colletotrichum siamense on Michelia alba in China.

Michelia alba (common name: white champaca), native to Indonesia, is a preciously ornamental and medicinal plant in the west and southeast of China and widely distributed in Nanning, Guangxi, China (Hou et al. 2018). In May 2020, a foliar disease of M.

PP6 phosphatases dephosphorylate PIF proteins to repress photomorphogenesis.

The PHYTOCHROME-INTERACTING FACTORs (PIFs) play a central role in repressing photomorphogenesis, and phosphorylation mediates the stability of PIF proteins. Although the kinases responsible for PIF phosphorylation have been extensively studied, the phosphatases that dephosphorylate PIFs remain largely unknown. Here, we report that seedlings with mutations in and , 2 genes encoding the catalytic subunits of protein phosphatase 6 (PP6), exhibited short hypocotyls and opened cotyledons in the dark, which resembled the photomorphogenic development of dark-grown mutants.

Density functional studies of the stepwise substitution of pyridine, pyridazine, pyrimidine, pyrazine, and 1,3,5-triazine with BCO.

The structures, stabilities, and aromaticities of a series of (BCO) n (CH)5-n N (n = 0-5), (BCO) n (CH)4-n N2 (n = 0-4), and 1,3,5-(BCO) n (CH)3-n N3 (n = 0-3) clusters were investigated at the B3LYP density functional level of theory. The most stable positional isomers of individual clusters were obtained. All of the calculated CO binding energies were positive, suggesting that the BCO-substituted species are stable.

Density functional studies of the stepwise substitution of pyrrole, furan, and thiophene with BCO.

The structures, stabilities, and aromaticities of a series of (BCO) n (CH)₄-n NH (n = 0-4), (BCO) n (CH)₄-n O (n = 0-4), and (BCO) n (CH)₄-n S (n = 0-4) clusters were investigated at the B3LYP density functional level of theory. The most stable positional isomers of the individual clusters were obtained. All of the calculated CO binding energies were exothermic, suggesting that these BCO-substituted species are stable.

Structures and aromaticity of Cationic closo-BnHn-3(CO)3+ (n = 5-12).

Structures and stabilities of tricarbonyl closo-boranes cation, BnHn-3(CO)3+ (n = 5-12), isolobal with cationic closo-carboranes C3Bn-3Hn+, have been investigated at the B3LYP/6-311+G** level of theory. The most stable positional isomers of individual cluster are in agreement with those of closo-C3Bn-3Hn+ clusters except for n = 8 and 10. Energetic analysis identifies closo-B6H3(CO)3+, closo-B10H7(CO)3+ and closo-B12H9(CO)3+ as the most stable cages.

Boron nitride cages from B12N12 to B36N36: square-hexagon alternants vs boron nitride tubes.

The structures and stabilities of square-hexagon alternant boron nitrides (Bx Nx , x=12-36) vs their tube isomers containing octagons, decagons and dodecagons have been computed at the B3LYP density functional level of theory with the correlation-consistent cc-pVDZ basis set of Dunning. It is found that octagonal B20N20 and B24N24 tube structures are more stable than their square-hexagon alternants by 18.6 and 2.

Structures and energies of isolobal (BCO)n and (CH)n cages.

The structures and energies of isolobal (CH)n and (BCO)n polyhedral species, computed at the B3LYP density functional theory level, reveal contrasts in behavior. The strain energies of the (BCO)n cages are much smaller. Also unlike the (CH)n cages, the most stable (BCO)n polyhedra (n > or = 10) prefer structures with the largest number of three-membered rings.