… root (AR) formation is essential for the successful propagation of Camellia sinensis and …
Nowadays, the mechanism of auxin-induced AR formation in tea cuttings is widely studied. …

… root initiation are described in cuttings with single leaf and node of Turkish tea (Camellia
sinensis L.) clone Fener-3. In this clone no preformed root initials or primordia were found. The …

… In this study, transcriptome analysis of LRs of tea plant (Camellia sinensis) treated with
low and high concentrations of nitrogen, indole-3-butyric acid (IBA) and N − 1-…

… rooting parts show a downward trend. Furthermore, coniferyl alcohol is the key metabolite for
adventitious root formation in the upper and base rooting … for adventitious root formation in …

… antagonistic effects in adventitious root formation [31, 32]. A high auxin:cytokinin ratio promotes
the formation of AR, while a relatively low ratio facilitates shoot formation. A recent study …

… Additionally, although WUSCHEL-RELATED HOMEOBOX GENE 11 (WOX11) plays a
critical role in adventitious root formation and development, in our results only WUSCHEL-related …

… of tea plants chiefly depends on the formation of adventitious roots in cuttings. To better …
root formation, we performed transcriptome analysis of single nodal cuttings of C. sinensis …

… helps adventitious root formation in immature single node cuttings of Camellia sinensis. …
IAA, IBA and NAA on rooting from single nodal cuttings of Camellia sinensis var. TV-20 after …

… mechanism of light quality affecting adventitious root formation, we performed full-length …
mechanism of light quality regulating adventitious root formation of tea short cutting through …

… rooting. To increase our understanding of genes involved in adventitious root formation,
we identified transcripts differentially expressed in single nodal cuttings of Camellia sinensis …