http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Shen, Haihong,Zheng, Xuexiu,Luecke, Stephan,Green, Michael R Cold Spring Harbor Laboratory in association with 2010 Genes & development Vol.24 No.21
<P>The U2AF35-related protein Urp has been implicated previously in splicing of the major class of U2-type introns. Here we show that Urp is also required for splicing of the minor class of U12-type introns. Urp is recruited in an ATP-dependent fashion to the U12-type intron 3' splice site, where it promotes formation of spliceosomal complexes. Remarkably, Urp also contacts the 3' splice site of a U2-type intron, but in this case is specifically required for the second step of splicing. Thus, through recognition of a common splicing element, Urp facilitates distinct steps of U2- and U12-type intron splicing.</P>
CRISPR as a strong gene editing tool
( Shengfu Shen ),( Tiing Jen Loh ),( Hongling Shen ),( Xuexiu Zheng ),( Haihong Shen ) 생화학분자생물학회(구 한국생화학분자생물학회) 2017 BMB Reports Vol.50 No.1
Clustered regularly-interspaced short palindromic repeats (CRISPR) is a new and effective genetic editing tool. CRISPR was initially found in bacteria to protect it from virus invasions. In the first step, specific DNA strands of virus are identified by guide RNA that is composed of crRNA and tracrRNA. Then RNAse III is required for producing crRNA from pre-crRNA. In The second step, a crRNA:tracrRNA:Cas9 complex guides RNase III to cleave target DNA. After cleavage of DNA by CRISPR-Cas9, DNA can be fixed by Non- Homologous End Joining (NHEJ) and Homology Directed Repair (HDR). Whereas NHEJ is simple and random, HDR is much more complex and accurate. Gene editing by CRISPR is able to be applied to various biological field such as agriculture and treating genetic diseases in human. [BMB Reports 2017; 50(1): 20-24]
Jenkins, Jermaine L.,Shen, Haihong,Green, Michael R.,Kielkopf, Clara L. American Society for Biochemistry and Molecular Bi 2008 The Journal of biological chemistry Vol.283 No.48
<P>The U2 auxiliary factor large subunit (U2AF65) is an essential pre-mRNA splicing factor for the initial stages of spliceosome assembly. Tandem RNA recognition motifs (RRM)s of U2AF65 recognize polypyrimidine tract signals adjacent to 3' splice sites. Despite the central importance of U2AF65 for splice site recognition, the relative arrangement of the U2AF65 RRMs and the energetic forces driving polypyrimidine tract recognition remain unknown. Here, the solution conformation of the U2AF65 RNA binding domain determined using small angle x-ray scattering reveals a bilobal shape without apparent interdomain contacts. The proximity of the N and C termini within the inter-RRM configuration is sufficient to explain the action of U2AF65 on spliceosome components located both 5' and 3' to its binding site. Isothermal titration calorimetry further demonstrates that an unusually large enthalpy-entropy compensation underlies U2AF65 recognition of an optimal polyuridine tract. Qualitative similarities were observed between the pairwise distance distribution functions of the U2AF65 RNA binding domain and those either previously observed for N-terminal RRMs of Py tract-binding protein that lack interdomain contacts or calculated from the high resolution coordinates of a U2AF65 deletion variant bound to RNA. To further test this model, the shapes and RNA interactions of the wild-type U2AF65 RNA binding domain were compared with those of U2AF65 variants containing either Py tract-binding protein linker sequences or a deletion within the inter-RRM linker. Results of these studies suggest inter-RRM conformational plasticity as a possible means for U2AF65 to universally identify diverse pre-mRNA splice sites.</P>
Isoforms of wild type proteins often appear as low molecular weight bands on SDS-PAGE.
Zhang, Ju,Lou, Xiaomin,Shen, Haihong,Zellmer, Lucas,Sun, Yuan,Liu, Siqi,Xu, Ningzhi,Liao, D Joshua Wiley 2014 Biotechnology Journal Vol.9 No.8
<P>Immunoblotting, after polyacrylamide gel electrophoresis with sodium dodecyl sulfate (SDS-PAGE), is a technique commonly used to detect specific proteins. SDS-PAGE often results in the visualization of protein band(s) in addition to the one expected based on the theoretical molecular mass (TMM) of the protein of interest. To determine the likelihood of additional band(s) being nonspecific, we used liquid chromatography - mass spectrometry to identify proteins that were extracted from bands with the apparent molecular mass (MM) of 40 and 26 kD, originating from protein extracts derived from non-malignant HEK293 and cancerous MDA-MB231 (MB231) cells separated using SDS-PAGE. In total, approximately 57% and 21% of the MS/MS spectra were annotated as peptides in the two cell samples, respectively. Moreover, approximately 24% and 36.2% of the identified proteins from HEK293 and MB231 cells matched their TMMs. Of the identified proteins, 8% from HEK293 and 26% from MB231 had apparent MMs that were larger than predicted, and 67% from HEK293 and 37% from MB231 exhibited smaller MM values than predicted. These revelations suggest that interpretation of the positive bands of immunoblots should be conducted with caution. This study also shows that protein identification performed by mass spectrometry on bands excised from SDS-PAGE gels could make valuable contributions to the identification of cancer biomarkers, and to cancer-therapy studies.</P>
( Namjeong Choi ),( Yongchao Liu ),( Jagyeong Oh ),( Jiyeon Ha ),( Claudia Ghigna ),( Xuexiu Zheng ),( Haihong Shen ) 생화학분자생물학회(구 한국생화학분자생물학회) 2021 BMB Reports Vol.54 No.3
Bcl-x, a member of the Bcl-2 family, plays a key role in apoptosis. Alternative splicing of Bcl-x pre-mRNA through alternative 5’ splice-site selection produces an anti-apoptotic mRNA isoform that includes exon 2b and a pro-apoptotic Bcl-x mRNA isoform that excludes exon 2b. Here we used Bcl-x minigene and identified SRSF2 and SRSF6 as two regulatory factors of 5’ splice-site selection of Bcl-x pre-mRNA. We selected binding clusters closer to 5’ splice-sites from multiple potential binding sites of SRSF2 and SRSF6 to perform loss of functions analysis through site-directed mutagenesis. Our results demonstrated that these mutations did not abolish regulatory functions of SRSF2 or SRSF6, indicating that a single binding motif or a cluster was not a functional target of these proteins in Bcl-x pre-mRNA splicing. Random deletion mutagenesis did not disrupt the role of SRSF2 and SRSF6. Importantly, mutagenesis of 5’ splice-site to a conserved or a weaker score demonstrated that the weaker strength of the target 5’ splice-site or higher strength of the other 5’ splice-site strength limited the role of SRSF2 and SRSF6 in 5’ splice-site activation. [BMB Reports 2021; 54(3): 176-181]