Sedlak M, Walter T, Aronson A
Department of Biological Sciences, Purdue University, West Lafayette, Indiana 47907, USA.
J Bacteriol. 2000 Feb;182(3):734-41. doi: 10.1128/JB.182.3.734-741.2000.
During sporulation, Bacillus thuringiensis produces intracellular, crystalline inclusions comprised of a mixture of protoxins active on insect larvae. A major class of these protoxin genes, designated cry1, is transcribed from two overlapping promoters (BtI and BtII) utilizing RNA polymerase containing sporulation sigma factors sigma(E) and sigma(K), respectively. Fusions of these promoters to lacZ were constructed in order to analyze transcription patterns. Mutations within the -10 region of the BtII promoter (within the spacer region of the BtI promoter) which departed from the consensus -10 sequence for either sigma(E) or sigma(K) resulted in inactivation of transcription from BtII and a fivefold stimulation of transcription from BtI. In contrast, transcription from both promoters was inhibited with a change to the sigma(E) consensus. One of the "promoter-up" mutations was fused to the cry1Ac1 gene, and enhanced transcription was confirmed by Northern blotting. There was an increase in the accumulation of Cry1Ac antigen at early but not later times in sporulation in the mutant. This shift was due to the rapid turnover of much of the excessively accumulated protoxin at the early times as measured by pulse-chase labeling. As a result of the turnover and the inactivation of the BtII promoter, the mutant produced smaller inclusions which contained two- to threefold-less protoxin than inclusions from the wild type. Promoter overlap is a mechanism for modulating protoxin synthesis, thus ensuring the efficient packaging of these protoxins into inclusions.
在芽孢形成过程中,苏云金芽孢杆菌会产生细胞内结晶内含物,这些内含物由对昆虫幼虫具有活性的原毒素混合物组成。这些原毒素基因的一个主要类别,即cry1,分别利用含有芽孢形成σ因子σ(E)和σ(K)的RNA聚合酶,从两个重叠的启动子(BtI和BtII)转录而来。构建了这些启动子与lacZ的融合体,以分析转录模式。BtII启动子(在BtI启动子的间隔区内)-10区域内偏离σ(E)或σ(K)的共有-10序列的突变,导致BtII转录失活,并使BtI转录增强了五倍。相反,将其改变为σ(E)共有序列会抑制两个启动子的转录。其中一个“启动子增强”突变与cry1Ac1基因融合,通过Northern印迹法证实了转录增强。在突变体芽孢形成的早期而非后期,Cry1Ac抗原的积累有所增加。这种转变是由于通过脉冲追踪标记测量发现,在早期大量过度积累的原毒素迅速周转。由于周转以及BtII启动子的失活,突变体产生的内含物较小,其中所含原毒素比野生型内含物少两到三倍。启动子重叠是调节原毒素合成的一种机制,从而确保这些原毒素有效地包装到内含物中。