De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins
Abstract
Resurrection plant Ramonda serbica Panc. survives
desiccation for a long period and fully recovers
metabolic functions already within one day upon
watering. Desiccation (extreme dehydration) induces protein
unfolding and aggregation, destabilization or loss of
cellular membrane integrity. Besides, desiccation
provokes the accelerated generation of reactive
oxygen species.
HL
DL
Aim: To identify Late Embryogenesis Abundant Proteins
(LEAPs) that contribute to desiccation tolerance in
R. serbica by comparative transcriptomics of
hydrated (HL) and desiccated leaves (DL).
Keywords:
Ramonda serbica / LEA proteins / de novo transcriptomeSource:
Belgrade BioInformatics Conference 2021, 2021Publisher:
- Belgrade BioInformatics
Funding / projects:
- LEAPSyn-SCI - Late Embryogenesis Abundant Proteins: Structural Characterisation and Interaction With Α-Synuclein (RS-ScienceFundRS-Promis-6039663)
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200042 (University of Belgrade, Institute of Molecular Genetics and Genetic Engineering) (RS-MESTD-inst-2020-200042)
Collections
Institution/Community
Institut za molekularnu genetiku i genetičko inženjerstvoTY - GEN AU - Pantelić, Ana AU - Stevanović, Strahinja AU - Kilibarda, Nataša AU - Vidović, Marija PY - 2021 UR - https://imagine.imgge.bg.ac.rs/handle/123456789/1852 AB - Resurrection plant Ramonda serbica Panc. survives desiccation for a long period and fully recovers metabolic functions already within one day upon watering. Desiccation (extreme dehydration) induces protein unfolding and aggregation, destabilization or loss of cellular membrane integrity. Besides, desiccation provokes the accelerated generation of reactive oxygen species. HL DL Aim: To identify Late Embryogenesis Abundant Proteins (LEAPs) that contribute to desiccation tolerance in R. serbica by comparative transcriptomics of hydrated (HL) and desiccated leaves (DL). PB - Belgrade BioInformatics T2 - Belgrade BioInformatics Conference 2021 T1 - De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins UR - https://hdl.handle.net/21.15107/rcub_imagine_1852 ER -
@misc{ author = "Pantelić, Ana and Stevanović, Strahinja and Kilibarda, Nataša and Vidović, Marija", year = "2021", abstract = "Resurrection plant Ramonda serbica Panc. survives desiccation for a long period and fully recovers metabolic functions already within one day upon watering. Desiccation (extreme dehydration) induces protein unfolding and aggregation, destabilization or loss of cellular membrane integrity. Besides, desiccation provokes the accelerated generation of reactive oxygen species. HL DL Aim: To identify Late Embryogenesis Abundant Proteins (LEAPs) that contribute to desiccation tolerance in R. serbica by comparative transcriptomics of hydrated (HL) and desiccated leaves (DL).", publisher = "Belgrade BioInformatics", journal = "Belgrade BioInformatics Conference 2021", title = "De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins", url = "https://hdl.handle.net/21.15107/rcub_imagine_1852" }
Pantelić, A., Stevanović, S., Kilibarda, N.,& Vidović, M.. (2021). De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins. in Belgrade BioInformatics Conference 2021 Belgrade BioInformatics.. https://hdl.handle.net/21.15107/rcub_imagine_1852
Pantelić A, Stevanović S, Kilibarda N, Vidović M. De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins. in Belgrade BioInformatics Conference 2021. 2021;. https://hdl.handle.net/21.15107/rcub_imagine_1852 .
Pantelić, Ana, Stevanović, Strahinja, Kilibarda, Nataša, Vidović, Marija, "De Novo Transcriptome Sequencing of Ramonda serbica : Identification of Late Embryogenesis Abundant Proteins" in Belgrade BioInformatics Conference 2021 (2021), https://hdl.handle.net/21.15107/rcub_imagine_1852 .