Yong-Qiang Gao, Wei-Hua Wu and Yi Wang. The K+ channel KZM2 is involved in stomatal movement bymodulating inward K+ currents in maize guard cells. The plant journal. DOI: 10.1111/tpj.13712
发布日期:2019-11-12 浏览次数:  信息来源:生物学院

The K+ channel KZM2 is involved in stomatal movement bymodulating inward K+ currents in maize guard cells

Yong-Qiang Gao, Wei-Hua Wu and Yi Wang

The plant journal

DOI: 10.1111/tpj.13712



Stomata are the major gates in plant leaf that allow water and gas exchange, which is essential for plant transpiration and photosynthesis. Stomatal movement is mainly controlled by the ion channels and transporters in guard cells. In Arabidopsis, the inward ShakerK+ channels, such as KAT1 and KAT2, are responsible for stomatal opening. However, the characterization of inward K+ channels in maize guard cells is limited. In the present study, we identified two KAT1-like ShakerK+channels,KZM2andKZM3, which were highly expressed in maize guard cells. Subcellular analysis indicated that KZM2 and KZM3 can localize at the plasma membrane. Electrophysiological characterization in HEK293 cells revealed that both KZM2 and KZM3 were inward K+(Kin) channels, but showing distinct channel kinetics. When expressed in Xenopusoocytes, only KZM3, but not KZM2, can mediate inward K+currents. However, KZM2 can interact withKZM3 forming heteromeric Kin channel. In oocytes, KZM2 inhibited KZM3 channel conductance and negatively shifted the voltage dependence of KZM3. The activation of KZM2–KZM3 heteromeric channel became slower than the KZM3 channel. Patch-clamping results showed that the inward K+currents of maize guard cells were significantly increased in the KZM2RNAi lines. In addition, the RNAi lines exhibited faster stomatal opening after light exposure. In conclusion, the presented results demonstrate that KZM2 functions as a negative regulator to modulate the Kin channels in maize guard cells. KZM2 and KZM3 may form heteromeric Kin channel and control stomatal opening in maize.

【打印本页】 【关闭本页】