Yamanaka G, Lundell D J, Glazer A N
J Biol Chem. 1982 Apr 25;257(8):4077-86.
Synechococcus 6301 mutant, strain AN112, produces phycobilisomes containing two major biliproteins, phycocyanin and allophycocyanin, and two major linker polypeptides of 27 and 75 kilodaltons (27K and 75K). These phycobilisomes have a molecular weight of approximately 2.5 X 10(6) and are the smallest of these particles known to date. Sucrose density gradient centrifugation of AN112 phycobilisomes partially dissociated in 50 mM N-[tris(hydroxymethyl)methyl]glycine, 5 mM CaCl2, 10% (w/v) glycerol, pH 7.8, separated three distinct fractions: (1) free trimeric biliproteins, (2) hexameric complexes of phycocyanin with 27K (11 S particles), and (3) phycobilisome subassemblies equivalent in mass to approximately 25% of the intact phycobilisome (18 S particles). The 18 S particles contained equimolar amounts of phycocyanin and allophycocyanin, which represented approximately 30 and 50%, respectively, of the content of these biliproteins in the AN112 phycobilisome. The 18 S particles also contained 75% and 100%, respectively, of 27K and 75K polypeptides; i.e. 75K was present in a 2-fold higher amount than in the intact phycobilisome. The absorption spectrum (lambda max 648 nm) of the 18 S particles was similar to that of allophycocyanin. Upon excitation at 580 nm, these particles exhibited a fluorescence emission spectrum consisting of 680 and 660 nm components, identical with that of intact phycobilisomes. The circular dichroism spectra of AN112 phycobilisomes and of the 18 S particles, in the region between 650 and 700 nm, were also very similar. Allophycocyanin B, which fluoresces at 680 nm, was found in fraction 1, and was totally absent from the 18 S particle. Thus, the long wavelength emission of the 18 S particle must have arisen from another terminal energy acceptor. The most probable candidate is the 75K polypeptide, which has been shown to carry a bilin chromophore and emit near 680 nm (Lundell, D. J., Yamanaka, G., and Glazer, A. N. (1980) J. Cell Biol. 91, 315-319). The 27K polypeptide, present in both fractions 2 and 3, was a component of different complexes in the two fractions. Fraction 2 displayed the physical and spectroscopic properties characteristic of the phycocyanin-linker complex, (alpha beta)6.27K. However, in the 18 S particle, 27K functioned in the assembly and attachment of phycocyanin trimers to a core domain. Based on the analysis of the components in fractions 1-3, a model is proposed which describes the structure of the AN112 phycobilisome, with emphasis on the roles of the linker polypeptides in the assembly of the core.
集胞藻6301突变体AN112菌株产生的藻胆体含有两种主要的胆色素蛋白,即藻蓝蛋白和别藻蓝蛋白,以及两种主要的连接多肽,分子量分别为27千道尔顿和75千道尔顿(27K和75K)。这些藻胆体的分子量约为2.5×10⁶,是迄今为止已知的这些颗粒中最小的。在50 mM N-[三(羟甲基)甲基]甘氨酸、5 mM氯化钙、10%(w/v)甘油、pH 7.8条件下部分解离的AN112藻胆体经蔗糖密度梯度离心,分离出三个不同的组分:(1)游离三聚体胆色素蛋白,(2)藻蓝蛋白与27K的六聚体复合物(11S颗粒),(3)质量相当于完整藻胆体约25%的藻胆体亚组装体(18S颗粒)。18S颗粒含有等摩尔量的藻蓝蛋白和别藻蓝蛋白,分别约占AN112藻胆体中这些胆色素蛋白含量的30%和50%。18S颗粒还分别含有75%和100%的27K和75K多肽;即75K的含量比完整藻胆体中的高2倍。18S颗粒的吸收光谱(最大吸收波长648 nm)与别藻蓝蛋白的相似。在580 nm激发时,这些颗粒呈现出由680 nm和660 nm组分组成的荧光发射光谱,与完整藻胆体的相同。AN112藻胆体和18S颗粒在650至700 nm区域的圆二色光谱也非常相似。在组分1中发现了在680 nm处发荧光的别藻蓝蛋白B,而18S颗粒中完全没有。因此,18S颗粒的长波长发射必定来自另一个末端能量受体。最有可能的候选者是75K多肽,已证明它携带一个胆素发色团并在680 nm附近发射(伦德尔,D.J.,山中,G.,和格拉泽,A.N.(1980)《细胞生物学杂志》91,315 - 319)。27K多肽存在于组分2和3中,在这两个组分中是不同复合物的成分。组分2表现出藻蓝蛋白 - 连接体复合物(αβ)6.27K的物理和光谱特性。然而,在18S颗粒中,27K在藻蓝蛋白三聚体组装到核心结构域以及连接方面发挥作用。基于对组分1 - 3中成分的分析,提出了一个描述AN112藻胆体结构的模型,重点强调连接多肽在核心组装中的作用。
