MicroRNAs (miRNAs) play crucial roles in regulating the expression of various stress responses genes in plants. To investigate soybean (Glycine max) miRNAs involved in the response to cadmium (Cd), microarrays containing 953 unique miRNA probes were employed to identify differences in the expression patterns of the miRNAs between different genotypes, Huaxia3 (HX3, Cd-tolerant) and Zhonghuang24 (ZH24, Cd-sensitive). Twenty six Cd-responsive miRNAs were identified in total. Among them, nine were detected in both cultivars, while five were expressed only in HX3 and 12 were only in ZH24. The expression of 16 miRNAs was tested by qRT-PCR and most of the identified miRNAs were found to have similar expression patterns with microarray. Three hundred and seventy six target genes were identified for 204 miRNAs from a mixture degradome library, which was constructed from the root of HX3 and ZH24 with or without Cd treatment. Fifty five genes were identified to be cleaved by 14 Cd-responsive miRNAs. Gene ontology (GO) annotations showed that these target transcripts are implicated in a broad range of biological processes. In addition, the expression patterns of ten target genes were validated by qRT-PCR. The characterization of the miRNAs and the associated target genes in response to Cd exposure provides a framework for understanding the molecular mechanism of heavy metal tolerance in plants.
Summary
Adenine base editors (ABEs), which are generally engineered adenosine deaminases and Cas variants, introduce site‐specific A‐to‐G mutations for agronomic trait improvement. However, notably varying editing efficiencies, restrictive requirements for protospacer‐adjacent motifs (PAMs) and a narrow editing window greatly limit their application. Here, we developed a robust high‐efficiency ABE (PhieABE) toolbox for plants by fusing an evolved, highly active form of the adenosine deaminase TadA8e and a single‐stranded DNA‐binding domain (DBD), based on PAM‐less/free
Streptococcus pyogenes
Cas9 (SpCas9) nickase variants that recognize the PAM NGN (for SpCas9n‐NG and SpGn) or NNN (for SpRYn). By targeting 29 representative targets in rice and assessing the results, we demonstrate that PhieABEs have significantly improved base‐editing activity, expanded target range and broader editing windows compared to the ABE7.10 and general ABE8e systems. Among these PhieABEs, hyper ABE8e‐DBD‐SpRYn (hyABE8e‐SpRY) showed nearly 100% editing efficiency at some tested sites, with a high proportion of homozygous base substitutions in the editing windows and no single guide RNA (sgRNA)‐dependent off‐target changes. The original sgRNA was more compatible with PhieABEs than the evolved sgRNA. In conclusion, the DBD fusion effectively promotes base‐editing efficiency, and this novel PhieABE toolbox should have wide applications in plant functional genomics and crop improvement.
Mercury emission is an important
issue during in-situ gasification chemical-looping
combustion (iG-CLC)
of coal. This work focused on experimentally “isolating”
two elementary subprocesses (coal pyrolysis and char gasification)
during iG-CLC of coal, identifying mercury distribution
within the two subprocesses, and examining the effects of a hematite
oxygen carrier (OC) on the mercury fate. The mercury measurement accuracy
was carefully ensured by comparing online measurements (by a VM 3000
instrument) and benchmark measurements (by the standard Ontario Hydro
Method, ASTM D6784) as well as repeated tests (10 times for each case).
The mercury mass balance was 115% for the entire iG-CLC. A total of 44.7% of the mercury was released as the gas phase
form within the coal pyrolysis process at a typical CLC operation
temperature (950 °C), whereas 13.4% was released during the char
gasification process. The release rate and amount of mercury were
minimally affected by the presence of OC; however, the OC promoted
the conversion of Hg0(g) to Hg2+(g). Only a
small amount of mercury was absorbed by the OC and transported into
the air reactor along with carbon residue, released as Hg0(g) and Hg2+(g) or remained in the OC and coal ash as
particulate mercury.
An unprecedented palladium-catalyzed sequential procedure toward arylation and allylic alkylation of highly functionalized cyclohexenones was developed. This new protocol leads to useful building blocks containing a benzylic quaternary carbon in only one step. A concise total synthesis of mesembrine based on this procedure was achieved in only five steps with 22% overall yield.
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