ABSTRACT
A cobalt-promoted photoredox 1,2-amidoamination of alkenes with N-sulfonamidopyridin-1-ium salts and free amines for the synthesis of unsymmetrical vicinal diamines has been developed. The reaction handles N-(sulfonamido)pyridin-1-ium salts as the sulfonamidyl radical precursors and free amines as the nucleophilic terminating reagents to enable the formation of two new C(sp3)-N bonds in a single reaction step and offers a route to selectively producing unsymmetrical vicinal diamines with an exquisite selectivity and a good compatibility of functional groups.
ABSTRACT
A palladium-/copper-cocatalyzed three-component trans-allenylsilylation of terminal alkynes with propargyl acetates and PhMe2SiBpin is described, which is driven by the regioselective allenylation of the alkyne with propargyl acetates and then silylation. This method allows the simultaneous incorporation of an allene and silicon across the C≡C bond and provides a highly chemo-, regio-, and stereoselective alkyne difunctionalization route to the synthesis of valuable (E)-silyl enallenes. The utility of this method is highlighted by late-stage derivatization of bioactive compounds.
ABSTRACT
We here describe an alkynylative [5+1] benzannulation of 3-acetoxy-1,4-enynes with terminal alkynes, which enables both the construction of a benzene ring skeleton and intermolecular incorporation of an alkynyl group in a single reaction using Pd and Cu cooperative catalysts. The method represents efficient access to internal aryl alkynes through divergent functionalization of two terminal alkyne components: one alkyne serves as the one-carbon unit to realize the [5+1] benzannulation and the other alkyne as a nucleophile terminates the reaction.
ABSTRACT
A new, general Pd/Cu-cocatalysed dicarbonylative benzannulation of 3-acetoxy-1,4-enynes with CO and silylboranes is described. The method utilizes CO as both a one-carbon (C1) unit and an external addition functional reagent to achieve an unprecedented dicarbonylative benzannulation process, and represents a facile, efficient route to 3-hydroxyarylacylsilanes. Mechanistically, the silyl-Cu intermediate formed from CuF2 and silylboranes, and silyl-Pd intermediate generated by transmetallation are two key factors for successfully targeting the reaction and selectivity.
ABSTRACT
BACKGROUND: Long non-coding RNA (lncRNA) is a key part of non-coding RNA, and more and more evidence has revealed that it plays a vital role in tumors. NEAT1 is a lncRNA discovered in the early stage. However, it is still unclear whether NEAT1 and miR-204 play a regulatory role in lung cancer (LC). This research aimed to determine the biological function of NEAT1/miR-204 in non-small cell lung cancer (NSCLC). MATERIALS AND METHODS: In order to research the function of NEAT1 in NSCLC, RT-PCR, Western blot, luciferase assay and RNA immunoprecipitation assay were used to determine the relationship between NEAT1, miR-204 and NUAK1. CCK8 test, cell migration and invasion test were used to explore the influence of NEAT1 on proliferation and metastasis of LC cells. Tumor allotransplantation was used to detect the influence of NEAT1 on the growth of LC. RESULTS: The results revealed that NEAT1 was obviously enhanced in LC cell lines. Further functional analysis showed that low expression of NEAT1 obviously suppressed the growth, migration and invasion of NSCLC and facilitated cell apoptosis. Determination of luciferase reporter gene revealed that miR-204 was the direct target of NEAT1 in LC. In addition, NUAK1 was called the direct target of miR-204, and miR-204/NUAK1 had saved the role of NEAT1 in NSCLC cells. Tumor allotransplantation experiments showed that knocking down NEAT1 could inhibit the growth of LC. CONCLUSION: In summary, our results showed that the down-regulation of NEAT1 in NSCLC inhibited its growth, migration and invasion through the miR-204/NUAK1 axis.
