Leucine-Rich Repeat Receptor-like kinases (LRR-RLKs) comprise the largest family of plant RLKs, but most of them are still functionally unknown. To explore the role of RLKs in heat stress response (HSR), we characterized 9 RLK-mutant lines of Arabidopsis under HS condition and focused on functional analysis of a heat-responsive gene: STRUBBELIG-RECEPTOR- FAMILY 6 (SRF6). SRF6 (At1g53730) encodes a putative LRR-RLK and was suggested to play a role in the HSR pathway. Subcellular localization and tissue-specific expression analysis demonstrated that SRF6 is a membrane-bound protein and ubiquitously expressed in plants. This study concluded that the cytoplasmic kinase domain (CKD) of SRF6 is catalytically inactive. The srf6 mutants is less sensitive than wild type when challenged with a short-term acquired thermotolerance (SAT) test. Besides, analysis of the thermo-responsive root elongation phenotypes in srf6 highlighted that SRF6 plays a role in the control of root growth recovery from the HS. Analysis of the endodermis reticulum (ER)-stress-responsive genes showed that the expression levels of bZIP28 and bZIP60 were higher in srf6. The preliminary study indicates that the existence of a non-canonical HSR pathway involving SRF6 and ER-stress response in root growth.