2016
DOI: 10.1104/pp.16.00925
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The DEK1 calpain Linker functions in three-dimensional body patterning in Physcomitrella patens

Abstract: The DEFECTIVE KERNEL1 (DEK1) calpain is a conserved 240-kD key regulator of three-dimensional body patterning in land plants acting via mitotic cell plane positioning. The activity of the cytosolic C-terminal calpain protease is regulated by the membrane-anchored DEK1 MEM, which is connected to the calpain via the 600-amino acid residue Linker. Similar to the calpain and MEM domains, the Linker is highly conserved in the land plant lineage, the similarity dropping sharply compared with orthologous charophyte s… Show more

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Cited by 22 publications
(73 citation statements)
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“…3) were constructed from vector pBHRF∆LinkerG1 29 . To make the vector containing the WT LG3 sequence, nt 8347–11544 was first PCR-amplified using primers SP_Inf_6 N and ASP_Inf_6 N from genomic P .…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…3) were constructed from vector pBHRF∆LinkerG1 29 . To make the vector containing the WT LG3 sequence, nt 8347–11544 was first PCR-amplified using primers SP_Inf_6 N and ASP_Inf_6 N from genomic P .…”
Section: Methodsmentioning
confidence: 99%
“…patens dek1Δlg3 mutant, generated by in-frame removal of the sequence corresponding to the DEK1-LG3 domain. This mutant forms reduced gametophores with narrow phyllids lacking several features of the WT phyllids, including the midrib 29 .
Figure 1Intron-exon structure of the Physcomitrella patens DEK1 gene. DEK1 ORF consists of 30 exons (grey rectangles) encoding the MEM domain (blue line), the LINKER segment (red line), the LG3 domain (blue rectangle) and the CALPAIN domain (green line).
…”
Section: Introductionmentioning
confidence: 99%
“…transcription factors, microtubule‐associated proteins, phosphatases, kinases or proteins involved in vesicular trafficking and hormonal signalling. It is notable that P. patens with Δdek1 shows perturbed expression of transcription factors regulating asymmetric divisions required for bud development (Johansen et al ., ). The previous finding does not, however, preclude other proteins which are not transcription factors from serving as DEK1 substrates.…”
Section: Dek1: Towards Identification Of Protease Substratesmentioning
confidence: 97%
“…The moss Physcomitrella patens with deleted DEK1 (Ddek1) shows faulty gametophore growth with increased number of buds ( Fig. 1b), pointing at a DEK1 function essential for a 3D body patterning, albeit not essential for the 2D growth of protonemata (Olsen et al, 2015;Johansen et al, 2016). The fact that 2D growth proceeds normally in Ddek1 allows the study of DEK1 functions in the asymmetric division during the 2D-to-3D patterning transition.…”
Section: Dek1: Towards Identification Of Protease Substratesmentioning
confidence: 99%
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