A semi-dominant mutant, nrtp1-D, with short roots and defense-related phenotypes was characterized. In addition to the defense mechanism against pathogen common to both roots and shoots, a novel pathway may exist in roots, which does not operate in shoots.
RT @PanosSarris: A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice. https://t.co/1C0VBErm0a
A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice.
RT @plantae_org: A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice (Yu et al., 2018): https://t.…
RT @plantae_org: A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice (Yu et al., 2018): https://t.…
RT @plantae_org: A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice (Yu et al., 2018): https://t.…
A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice (Yu et al., 2018): https://t.co/KT3jFmgKzJ #plantsci #openaccess https://t.co/e0Yv2X7nH4
Pubmed A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice. https://t.co/NuA8LEErDb
A semi-dominant mutation in a CC-NB-LRR-type protein leads to a short-root phenotype in rice. https://t.co/QPnDpLirD1