AI Article Synopsis
- Auxin plays a crucial role in regulating plant growth and development, with AUXIN BINDING PROTEIN1 (ABP1) being a key factor.
- Researchers faced challenges studying ABP1 due to lethal mutations, but a new mutant (abp1-5) in Arabidopsis thaliana facilitated deeper investigation into ABP1's function.
- The abp1-5 variant revealed over 8000 additional genetic mutations, complicating the interpretation of growth phenotypes and highlighting the necessity for using multiple genetic lines to accurately assess gene functions.
Article Abstract
Auxin regulates numerous aspects of plant growth and development. For many years, investigating roles for AUXIN BINDING PROTEIN1 (ABP1) in auxin response was impeded by the reported embryo lethality of mutants defective in ABP1. However, identification of a viable Arabidopsis thaliana TILLING mutant defective in the ABP1 auxin binding pocket (abp1-5) allowed inroads into understanding ABP1 function. During our own studies with abp1-5, we observed growth phenotypes segregating independently of the ABP1 lesion, leading us to sequence the genome of the abp1-5 line described previously. We found that the abp1-5 line we sequenced contains over 8000 single nucleotide polymorphisms in addition to the ABP1 mutation and that at least some of these mutations may originate from the Arabidopsis Wassilewskija accession. Furthermore, a phyB null allele in the abp1-5 background is likely causative for the long hypocotyl phenotype previously attributed to disrupted ABP1 function. Our findings complicate the interpretation of abp1-5 phenotypes for which no complementation test was conducted. Our findings on abp1-5 also provide a cautionary tale illustrating the need to use multiple alleles or complementation lines when attributing roles to a gene product.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4531353 | PMC |
| http://dx.doi.org/10.1105/tpc.15.00214 | DOI Listing |
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Article Synopsis
- Auxin plays a crucial role in regulating plant growth and development, with AUXIN BINDING PROTEIN1 (ABP1) being a key factor.
- Researchers faced challenges studying ABP1 due to lethal mutations, but a new mutant (abp1-5) in Arabidopsis thaliana facilitated deeper investigation into ABP1's function.
- The abp1-5 variant revealed over 8000 additional genetic mutations, complicating the interpretation of growth phenotypes and highlighting the necessity for using multiple genetic lines to accurately assess gene functions.
AUXIN-BINDING-PROTEIN1 (ABP1) in phytochrome-B-controlled responses.
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November 2013
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