… Our data further strengthen that callus formation and lateral root formation are under the
same genetic control at the initiation step [10]. It is an interesting molecular event that some …

… Root is the major organ to respond to Pb stress. However, little is known about how plant
roots perceive Pb stress signaling. Here, we describe the transcriptome of Arabidopsis root tips …

… However, to the best of our knowledge, the transcriptomic responses to Zn … transcriptome
changes in response to Zn deficiency were analyzed by RNA-seq in soybean leaves and roots. …

… In this work, we performed comparative transcriptomic analyses in the high taproot yield
cultivar SD13829 and the high sucrose content cultivar BS02 at five developmental stages. More …

… , we sequenced, then compared two sets of transcriptome profiles derived from MJ treated
and untreated P. quinquefolium adventitious roots. In addition, signaling molecules and …

Maize transformation is highly based on the formation of embryonic callus, which is mainly
derived from scutellum cells of the immature maize embryo. However, only a few genes …

… Subsequently, we show the global transcriptome profile of sink (tuberous root) and source
(leaf) organs at key developmental stages using RNA sequencing techniques based on …

… conducted gene expression profiling, as well … transcriptome profiles of in vitro-grown
adventitious roots of two ginseng cultivars. It also describes an advanced method for transcriptome …

… transcriptome profiling of the primary root pericycle 64 h after germination, thus before lateral
root … the identification of checkpoints involved in lateral root formation downstream of rum1. …

… to adventitious rooting. Our study presents a global view of transcriptome profiles of tea cuttings
in … rooting. Our data will be a valuable resource for genomic research about adventitious …