Riemer D, Karabinos A, Weber K
Max Planck Institute for Biophysical Chemistry, Department of Biochemistry, Am Fassberg 11, D-37077, Goettingen, Germany.
Gene. 1998 May 12;211(2):361-73. doi: 10.1016/s0378-1119(98)00151-6.
We report the sequences of seven new cytoplasmic intermediate filament (IF) proteins of the cephalochordate Branchiostoma. The eight sequences currently known describe four subfamilies (A, B, C and D). All eight IF proteins show the short-length version of the coil 1b subdomain found in vertebrates and lack the additional 42 residues present in all nuclear lamins and the protostomic IF proteins. Although the lancelet is considered to be the closest relative of the vertebrates, it is difficult to relate its IF subfamilies unambiguously to a particular type I-IV subfamily of vertebrates. C1 and C2 have tail domains with two 64 residue repeats of coiled coil-forming ability, a structural feature unknown for IF proteins from vertebrates or protostomia. The epidermal protein D1 shows only a slightly better identity score with vertebrate type II keratins than with type III proteins, but the D1 gene organization is that of type III proteins. The same holds for A1, A2, B1, B2 and C2 genes, although the latter has an additional and uniquely positioned intron. Antibodies (Ab) raised against recombinant C2 and D1 proteins reveal these proteins in epidermis, some internal epithelia and parts of the spinal cord. The results on exonic sequences, gene organization and expression suggest that Branchiostoma IF proteins may retain a largely archetypal condition, whereas the vertebrates have established the well-known type I-IV IF system.
我们报道了头索动物文昌鱼的七种新的细胞质中间丝(IF)蛋白的序列。目前已知的八个序列描述了四个亚家族(A、B、C和D)。所有这八种IF蛋白都显示出在脊椎动物中发现的卷曲螺旋1b亚结构域的短版本,并且缺少所有核纤层蛋白和原口动物IF蛋白中存在的额外42个残基。尽管文昌鱼被认为是脊椎动物最亲近的亲属,但很难将其IF亚家族明确地与脊椎动物特定的I-IV型亚家族联系起来。C1和C2具有尾部结构域,带有两个具有卷曲螺旋形成能力的64个残基重复序列,这是脊椎动物或原口动物的IF蛋白所没有的结构特征。表皮蛋白D1与脊椎动物II型角蛋白的同一性得分仅略高于与III型蛋白的得分,但D1基因的组织方式是III型蛋白的组织方式。A1、A2、B1、B2和C2基因也是如此,尽管后者有一个额外的、位置独特的内含子。针对重组C2和D1蛋白产生的抗体(Ab)在表皮、一些内部上皮组织和脊髓的部分区域中发现了这些蛋白。关于外显子序列、基因组织和表达的结果表明,文昌鱼的IF蛋白可能在很大程度上保留了原始状态,而脊椎动物已经建立了众所周知的I-IV型IF系统。