Karve Rucha, Suárez-Román Frank, Iyer-Pascuzzi Anjali S
Purdue University, Department of Botany and Plant Pathology, West Lafayette, Indiana 47907.
Purdue University, Department of Botany and Plant Pathology, West Lafayette, Indiana 47907
Plant Physiol. 2016 Jul;171(3):2101-11. doi: 10.1104/pp.16.00453. Epub 2016 May 24.
The root cap covers the tip of the root and functions to protect the root from environmental stress. Cells in the last layer of the root cap are known as border cells, or border-like cells (BLCs) in Arabidopsis (Arabidopsis thaliana). These cells separate from the rest of the root cap and are released from its edge as a layer of living cells. BLC release is developmentally regulated, but the mechanism is largely unknown. Here, we show that the transcription factor NIN-LIKE PROTEIN7 (NLP7) is required for the proper release of BLCs in Arabidopsis. Mutations in NLP7 lead to BLCs that are released as single cells instead of an entire layer. NLP7 is highly expressed in BLCs and is activated by exposure to low pH, a condition that causes BLCs to be released as single cells. Mutations in NLP7 lead to decreased levels of cellulose and pectin. Cell wall-loosening enzymes such as CELLULASE5 (CEL5) and a pectin lyase-like gene, as well as the root cap regulators SOMBRERO and BEARSKIN1/2, are activated in nlp7-1 seedlings. Double mutant analysis revealed that the nlp7-1 phenotype depends on the expression level of CEL5 Mutations in NLP7 lead to an increase in susceptibility to a root-infecting fungal pathogen. Together, these data suggest that NLP7 controls the release of BLCs by acting through the cell wall-loosening enzyme CEL5.
根冠覆盖着根尖,其功能是保护根部免受环境压力的影响。根冠最外层的细胞被称为边缘细胞,在拟南芥中则称为类边缘细胞(BLCs)。这些细胞与根冠的其他部分分离,并作为一层活细胞从根冠边缘释放出来。BLCs的释放受发育调控,但其机制在很大程度上尚不清楚。在这里,我们表明转录因子NIN样蛋白7(NLP7)是拟南芥中BLCs正常释放所必需的。NLP7的突变导致BLCs以单细胞形式而非整个细胞层的形式释放。NLP7在BLCs中高度表达,并通过暴露于低pH值而被激活,低pH值会导致BLCs以单细胞形式释放。NLP7的突变导致纤维素和果胶水平降低。在nlp7-1幼苗中,纤维素酶5(CEL5)和一个果胶裂解酶样基因等细胞壁松弛酶以及根冠调节因子SOMBRERO和BEARSKIN1/2被激活。双突变分析表明,nlp7-1表型取决于CEL5的表达水平。NLP7的突变导致对一种根部感染真菌病原体的易感性增加。总之,这些数据表明NLP7通过作用于细胞壁松弛酶CEL5来控制BLCs的释放。