Alessandro W. Rossoni
University of Düsseldorf
7Publications
2H-index
13Citations
Publications 7
Newest
Published on Mar 1, 2019in Plant and Cell Physiology 4.06
Alessandro W. Rossoni2
Estimated H-index: 2
(University of Düsseldorf),
Gerald Sch�nknecht1
Estimated H-index: 1
(Oklahoma State University–Stillwater)
+ 5 AuthorsMarion Eisenhut19
Estimated H-index: 19
(University of Düsseldorf)
1 Citations Source Cite
Published on Mar 4, 2019in bioRxiv
Alessandro W. Rossoni2
Estimated H-index: 2
(University of Düsseldorf),
Andreas P. M. Weber57
Estimated H-index: 57
(University of Düsseldorf)
Rapid fluctuation of environmental conditions can impose severe stress upon living organisms. Surviving such episodes of stress requires a rapid acclimation response, e.g., by transcriptional and post-transcriptional mechanisms. Persistent change of the environmental context, however, requires longer-term adaptation at the genetic level. Fast-growing unicellular aquatic eukaryotes enable analysis of adaptive responses at the genetic level in a laboratory setting. In this study, we applied contin...
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Published on Jan 23, 2019in bioRxiv
Alessandro W. Rossoni2
Estimated H-index: 2
(University of Düsseldorf),
Dana C. Price19
Estimated H-index: 19
(Rutgers University)
+ 4 AuthorsAndreas P. M. Weber57
Estimated H-index: 57
(University of Düsseldorf)
The role and extent of horizontal gene transfer (HGT) in eukaryotes are hotly disputed topics that impact our understanding regarding the origin of metabolic processes and the role of organelles in cellular evolution. We addressed this issue by analyzing 10 novel Cyanidiales genomes and determined that 1% of their gene inventory is HGT-derived. Numerous HGT candidates originated from polyextremophilic prokaryotes that live in similar habitats as the Cyanidiales and encodes functions related to p...
1 Citations Source Cite
Published on Nov 12, 2018in Frontiers in Plant Science 3.68
Jessica Schmitz12
Estimated H-index: 12
,
Alessandro W. Rossoni2
Estimated H-index: 2
,
Veronica G. Maurino27
Estimated H-index: 27
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Published on Dec 1, 2018in BMC Evolutionary Biology 3.03
Huan Qiu18
Estimated H-index: 18
(Rutgers University),
Alessandro W. Rossoni2
Estimated H-index: 2
(University of Düsseldorf)
+ 2 AuthorsDebashish Bhattacharya64
Estimated H-index: 64
(Rutgers University)
Background Genome reduction in intracellular pathogens and endosymbionts is usually compensated by reliance on the host for energy and nutrients. Free-living taxa with reduced genomes must however evolve strategies for generating functional diversity to support their independent lifestyles. An emerging model for the latter case is the Rhodophyta (red algae) that comprises an ecologically widely distributed, species-rich phylum. Red algae have undergone multiple phases of significant genome reduc...
3 Citations Source Cite
Published on Oct 1, 2017in Journal of Plant Physiology 2.83
Nadine Rademacher2
Estimated H-index: 2
(University of Düsseldorf),
Thomas Jan Wrobel3
Estimated H-index: 3
(University of Düsseldorf)
+ 4 AuthorsMarion Eisenhut19
Estimated H-index: 19
(University of Düsseldorf)
Abstract Cyanidioschyzon merolae ( C. merolae ) is an acidophilic red alga growing in a naturally low carbon dioxide (CO 2 ) environment. Although it uses a ribulose 1,5-bisphosphate carboxylase/oxygenase with high affinity for CO 2 , the survival of C. merolae relies on functional photorespiratory metabolism. In this study, we quantified the transcriptomic response of C. merolae to changes in CO 2 conditions. We found distinct changes upon shifts between CO 2 conditions, such as a concerted up-...
2 Citations Source Cite
Published on Dec 1, 2017in The Plant Cell 8.23
Jessica Schmitz12
Estimated H-index: 12
(University of Düsseldorf),
Isabell C. Dittmar1
Estimated H-index: 1
(University of Düsseldorf)
+ 4 AuthorsVeronica G. Maurino27
Estimated H-index: 27
(University of Düsseldorf)
Methylglyoxal (MGO) and glyoxal (GO) are toxic reactive carbonyl species generated as by-products of glycolysis. The pre-emption pathway for detoxification of these products, the glyoxalase (GLX) system, involves two consecutive reactions catalyzed by GLXI and GLXII. In Arabidopsis thaliana , the GLX system is encoded by three homologs of GLXI and three homologs of GLXII , from which several predicted GLXI and GLXII isoforms can be derived through alternative splicing. We identified the physiolo...
6 Citations Source Cite
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