Harpster M H, Lee K Y, Dunsmuir P
DNA Plant Technology Corporation, Oakland, CA 94608, USA.
Plant Mol Biol. 1997 Jan;33(1):47-59. doi: 10.1023/a:1005795028489.
The endo-beta-1,4-glucanases, or cellulases, of higher plants are cell wall-associated enzymes believed to function in cell wall changes associated with the diverse processes of fruit ripening, organ abscission and cell elongation. We have isolated and characterized cDNA and genomic clones encoding a cellulase, PCEL1, which is abundant in ripening pepper fruit. Genomic analysis indicates that PCEL1 is encoded by a single gene, PCEL1, which belongs to a small, structurally divergent gene family. In ripening fruit, PCEL1 transcription is initiated at two distinct sites which yields overlapping mRNA species of 1.7 and 2.1 kb. High-level accumulation of both transcripts occurs in red fruit, while the 1.7 kb transcript is detected at a much lower level in stem and petiolar tissue. The increase in cellulase activity which is measured during fruit ripening is the product of PCEL1 expression and is tightly coupled to fruit reddening. High-level applications of ethylene serve to enhance the rate of ripening and the accumulation of PCEL1 mRNA. A direct role for ethylene in regulating PCEL1 expression is shown by the exclusive induction, in immature green fruit, of the 1.7 kb transcript in response to prolonged high-level exposure to ethylene--a pattern of expression not observed in fruit development on the vine.
高等植物中的内切-β-1,4-葡聚糖酶,即纤维素酶,是与细胞壁相关的酶,据信在与果实成熟、器官脱落和细胞伸长等多种过程相关的细胞壁变化中发挥作用。我们已经分离并鉴定了编码纤维素酶PCEL1的cDNA和基因组克隆,该酶在成熟的辣椒果实中含量丰富。基因组分析表明,PCEL1由单个基因PCEL1编码,该基因属于一个结构上有差异的小基因家族。在成熟果实中,PCEL1转录起始于两个不同的位点,产生1.7 kb和2.1 kb的重叠mRNA种类。两种转录本在红色果实中都有高水平积累,而在茎和叶柄组织中,1.7 kb的转录本检测水平要低得多。果实成熟过程中测得的纤维素酶活性增加是PCEL1表达的产物,并且与果实变红紧密相关。乙烯的高水平应用有助于提高成熟速率和PCEL1 mRNA的积累。乙烯在调节PCEL1表达中的直接作用表现为,在未成熟的绿色果实中,长时间高水平暴露于乙烯会特异性诱导1.7 kb的转录本——这种表达模式在藤上果实发育过程中未观察到。
