Browsing by Subject "plants"
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Item Cold response biomarker identification in strawberry(2018-07-17) Deitch, Zachary M.; Randall, StephenStrawberry (Fragaria spp.) is an agricultural crop grown often in temperate regions that has high variability in its susceptibility to freezing injury. To breed cultivars for frost and freezing tolerance, identification of molecular markers associated with low temperature tolerance is advantageous. In this work, I investigated a high-throughput method for protein assays and western blotting. Success in streamlining these processes saves an immense amount of time and allows for the processing of more samples and obtaining larger datasets. Thirty-three octoploid varieties were tested for their accumulation of five different potential biomarkers in response to cold exposure. It was found that total dehydrin content, has the strongest potential to be reliable biomarkers for breeding programs. Previous work identified seven putative dehydrins in Fragaria, where two were purified and positively identified by mass spectrometry and determined to be COR47-like (SKn) and XERO2-like (YnSKn). This work demonstrated that cold tolerance positively correlated with dehydrin protein expression levels. To understand the cold-regulated expression of dehydrins as a function of cold exposure time, the levels of transcripts and corresponding proteins were examined in strongly cold tolerant (Alta) and lesser cold tolerant (FDP817, NCGR1363) Fragaria diploid genotypes. The COR47-like (SKn) and XERO2-like (YnSKn) dehydrins both had higher transcript accumulation and protein levels in the more cold tolerant line in comparison to the two less cold tolerant lines. Lack of correlation between transcript and resulting COR47 protein level in Alta were observed at several different timepoints, where protein accumulation preceded an increase in RNA. This trend was not seen with XERO2. This initiated an investigation to discover at what level COR47 is being regulated. First, the COR47 coding region was sequenced for all the genotypes to confirm against the predicted sequence. In addition, since two isoforms of the COR47 gene exist, and could possibly explain the discrepancy in transcript counts, primers were designed for both isoforms and RT-qPCR was performed to examine the transcripts of COR47 more closely. Through examination of the non-congruence of COR47 transcripts and protein, it was found that transcriptional mechanisms of regulation are not involved, and that post transcriptional and post-RNA splicing mechanisms are likely to be responsible for the observed trend in Alta. Conclusions from this work demonstrate that dehydrin transcripts and dehydrin protein accumulations are strong potential biomarkers for identifying low temperature tolerance in diploid strawberry.Item Ecological interpretations of nitrogen isotope ratios of terrestrial plants and soils(Springer, 2015-06) Craine, Joseph M.; Brookshire, E. N. J.; Cramer, Michael D.; Hasselquist, Niles J.; Koba, Keisuke; Marin-Spiotta, Erika; Wang, Lixin; Department of Earth Sciences, IU School of ScienceBackground Knowledge of biological and climatic controls in terrestrial nitrogen (N) cycling within and across ecosystems is central to understanding global patterns of key ecosystem processes. The ratios of 15N:14N in plants and soils have been used as indirect indices of N cycling parameters, yet our understanding of controls over N isotope ratios in plants and soils is still developing. Scope In this review, we provide background on the main processes that affect plant and soil N isotope ratios. In a similar manner to partitioning the roles of state factors and interactive controls in determining ecosystem traits, we review N isotopes patterns in plants and soils across a number of proximal factors that influence ecosystem properties as well as mechanisms that affect these patterns. Lastly, some remaining questions that would improve our understanding of N isotopes in terrestrial ecosystems are highlighted. Conclusion Compared to a decade ago, the global patterns of plant and soil N isotope ratios are more resolved. Additionally, we better understand how plant and soil N isotope ratios are affected by such factors as mycorrhizal fungi, climate, and microbial processing. A comprehensive understanding of the N cycle that ascribes different degrees of isotopic fractionation for each step under different conditions is closer to being realized, but a number of process-level questions still remain.Item Genomics and the intrinsic value of plants(ESRC Genomics Network, 2005-12) Gremmen, BartDebates the ethical issues of plant genomics with respect to the intrinsic value of plants.