Amrute S B, Abdul-Manan Z, Pandey V, Williams K R, Modak M J
Department of Biochemistry and Molecular Biology, UMDNJ-New Jersey Medical School, Newark 07103.
Biochemistry. 1994 Jul 12;33(27):8282-91. doi: 10.1021/bi00193a015.
A single-strand nucleic acid binding protein (C/F) that has an apparent molecular weight of 12,000 on SDS-polyacrylamide gel electrophoresis and that was originally thought to be the 12-kDa alpha-subunit of the AB form of terminal deoxynucleotidyl transferase (TdT) from calf thymus has been purified and identified as a fragment of the type C1/C2 hnRNP proteins. On the basis of NH2-terminal sequencing and mass spectrometric analysis, C/F contains approximately 94 residues and spans from residue 9 to approximately residue 102 in the type C1/C2 hnRNP proteins. C/F is presumably produced in vitro via limited proteolysis of the type C1/C2 hnRNP proteins following cell disruption. Since C/F corresponds almost exactly to the approximately 90-residue conserved ribonucleoprotein binding domain (RBD) that is shared by many eukaryotic RNA binding proteins, it provided an opportunity to better characterize the domain structure of the type C1/C2 hnRNP proteins and to compare the nucleic acid binding properties of the type C1/C2 and A1 [see Shamoo et al. (1994) Biochemistry, preceding paper in this issue] RNA binding domains. Like the type A1 RBD, the type C1/C2 RBD has an apparent occluded site size of 6-7 nucleotides. The type C1/C2 RBD binds non-cooperatively to homopolynucleotides and has preferential affinity for RNA and for single as opposed to double-stranded nucleic acids. The type C1/C2 RBD has about a 100-fold higher affinity than the type A1 RBD does for RNA and some of this increased affinity results from additional ionic interactions. The latter account for approximately 50% of the free energy of binding of the type C1/C2 RBD. While the type C1/C2 hnRNP proteins exist in vivo as a very tight tetramer with the structure (C1)3C2 [Barnett et al. (1989) Mol. Cell. Biol. 9, 492-498], the isolated type C1/C2 RBD is a monomer. Hence, the determinants for tetramerization appear to lie outside the type C1/C2 RBD. Phenylalanine 19 was identified as the only point of photochemical cross-linking of the type C1/C2 RBD to [d(T)]8. This residue corresponds to the major site of cross-linking of the A1 RBD to [d(T)]8 [Merrill, B. M., Stone, K. L., Cobianchi, F., Wilson, S. H., & Williams, K. R. (1988) J. Biol. Chem. 263, 3307-3313].(ABSTRACT TRUNCATED AT 400 WORDS)
一种单链核酸结合蛋白(C/F),在十二烷基硫酸钠-聚丙烯酰胺凝胶电泳上的表观分子量为12,000,最初被认为是来自小牛胸腺的末端脱氧核苷酸转移酶(TdT)AB形式的12 kDaα亚基,现已被纯化并鉴定为C1/C2型核不均一核糖核蛋白(hnRNP)的片段。基于氨基末端测序和质谱分析,C/F包含约94个残基,跨度为C1/C2型hnRNP蛋白中的第9位残基至约第102位残基。C/F可能是在细胞破裂后通过C1/C2型hnRNP蛋白的有限蛋白酶解在体外产生的。由于C/F几乎与许多真核RNA结合蛋白共有的约90个残基的保守核糖核蛋白结合结构域(RBD)完全对应,它为更好地表征C1/C2型hnRNP蛋白的结构域结构以及比较C1/C2型和A1型[见沙穆等人(1994年)《生物化学》,本期前一篇论文]RNA结合结构域的核酸结合特性提供了机会。与A1型RBD一样,C1/C2型RBD的表观封闭位点大小为6 - 7个核苷酸。C1/C2型RBD与同聚核苷酸非协同结合,对RNA和单链而非双链核酸具有优先亲和力。C1/C2型RBD对RNA的亲和力比A1型RBD高约100倍,这种亲和力的增加部分源于额外的离子相互作用。后者约占C1/C2型RBD结合自由能的50%。虽然C1/C2型hnRNP蛋白在体内以结构为(C1)3C2的非常紧密的四聚体形式存在[巴尼特等人(1989年)《分子细胞生物学》9, 492 - 498],但分离的C1/C2型RBD是单体。因此,四聚化的决定因素似乎位于C1/C2型RBD之外。苯丙氨酸19被鉴定为C1/C2型RBD与[d(T)]8进行光化学交联的唯一位点。该残基对应于A1型RBD与[d(T)]8交联的主要位点[梅里尔,B.M.,斯通,K.L.,科比亚尼奇,F.,威尔逊,S.H.,&威廉姆斯,K.R.(1988年)《生物化学杂志》263, 3307 - 3313]。(摘要截短于400字)
