Abstract
Among the GRAS family of transcription factors, SHORT ROOT (SHR) and SCARECROW (SCR) are key regulators of the formation of root tissues. In this study, we isolated and characterized two genes encoding SHR proteins and one gene encoding an SCR protein: ThSHR1 (Accession Number MF045148), ThSHR2 (Accession Number MF045149) and ThSCR (Accession Number MF045152) in the adventitious roots of Taxodium hybrid ‘Zhongshanshan’. Gene structure analysis indicated that ThSHR1, ThSHR2 and ThSCR are all intron free. Multiple protein sequence alignments showed that each of the corresponding proteins, ThSHR1, ThSHR2 and ThSCR, contained five well-conserved domains: leucine heptad repeat I (LHRI), the VHIID motif, leucine heptad repeat II (LHR II), the PFYRE motif, and the SAW motif. The phylogenetic analysis indicated that ThSCR was positioned in the SCR clade with the SCR proteins from eight other species, while ThSHR1 and ThSHR2 were positioned in the SHR clade with the SHR proteins from six other species. Temporal expression patterns of these genes were profiled during the process of adventitious root development on stem cuttings. Whereas expression of both ThSHR2 and ThSCR increased up to primary root formation before declining, that of ThSHR1 increased steadily throughout adventitious root formation. Subcellular localization studies in transgenic poplar protoplasts revealed that ThSHR1, ThSHR2 and ThSCR were localized in the nucleus. Collectively, these results suggest that the three genes encode Taxodium GRAS family transcription factors, and the findings contribute to improving our understanding of the expression and function of SHR and SCR during adventitious root production, which may then be manipulated to achieve high rates of asexual propagation of valuable tree species.
Highlights
Rapid increases in atmospheric CO2 concentration have resulted in climate change, such as global warming [1]
Subcellular localization studies in transgenic poplar protoplasts revealed that ThSHR1, ThSHR2 and ThSCR were localized in the nucleus
These results suggest that the three genes encode Taxodium GRAS family transcription factors, and the findings contribute to improving our understanding of the expression and function of SHORT ROOT (SHR) and SCR during adventitious root production, which may be manipulated to achieve high rates of asexual propagation of valuable tree species
Summary
Rapid increases in atmospheric CO2 concentration have resulted in climate change, such as global warming [1]. For many ecologically and economically important tree species the inability of stem cuttings to form adventitious roots hinders the development of large-scale plantations [3]. In response to this problem, a number of studies on important tree species, investigating the process of adventitious root formation at the physiological, anatomical, biochemical and molecular levels, have been undertaken to overcome these problems [4,5]. Identification and characterization of the genes controlling adventitious root formation are essential to understanding and potentially manipulating this phenomenon, in order to propagate more tree species from cuttings
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