TY  - JOUR
A1  - Lämke, Jörn
A1  - Bäurle, Isabel
T1  - Epigenetic and chromatin-based mechanisms in environmental stress adaptation and stress memory in plants
JF  - Genome biology : biology for the post-genomic era
N2  - Plants frequently have to weather both biotic and abiotic stressors, and have evolved sophisticated adaptation and defense mechanisms. In recent years, chromatin modifications, nucleosome positioning, and DNA methylation have been recognized as important components in these adaptations. Given their potential epigenetic nature, such modifications may provide a mechanistic basis for a stress memory, enabling plants to respond more efficiently to recurring stress or even to prepare their offspring for potential future assaults. In this review, we discuss both the involvement of chromatin in stress responses and the current evidence on somatic, intergenerational, and transgenerational stress memory.
KW  - remodeling atpase brahma
KW  - transcriptional memory
KW  - DNA methylation
KW  - transgenerational inheritance
KW  - acquired thermotolerance
KW  - Arabidopsis-thaliana
KW  - gene-expression
KW  - responses
KW  - protein
KW  - defense
Y1  - 2017
U6  - https://doi.org/10.1186/s13059-017-1263-6
SN  - 1474-760X
VL  - 18
SP  - 8685
EP  - 8693
PB  - BioMed Central
CY  - London
ER  - 
TY  - JOUR
A1  - Laux, Eva-Maria
A1  - Ermilova, Elena
A1  - Pannwitz, Daniel
A1  - Gibbons, Jessica
A1  - Hölzel, Ralph
A1  - Bier, Frank Fabian
T1  - Dielectric Spectroscopy of Biomolecules up to 110 GHz
JF  - Frequenz
N2  - Radio-frequency fields in the GHz range are increasingly applied in biotechnology and medicine. In order to fully exploit both their potential and their risks detailed information about the dielectric properties of biological material is needed. For this purpose a measuring system is presented that allows the acquisition of complex dielectric spectra over 4 frequency decade up to 110 GHz. Routines for calibration and for data evaluation according to physicochemical interaction models have been developed. The frequency dependent permittivity and dielectric loss of some proteins and nucleic acids, the main classes of biomolecules, and of their sub-units have been determined. Dielectric spectra are presented for the amino acid alanine, the proteins lysozyme and haemoglobin, the nucleotides AMP and ATP, and for the plasmid pET-21, which has been produced by bacterial culture. Characterisation of a variety of biomolecules is envisaged, as is the application to studies on protein structure and function.
KW  - dielectric
KW  - spectroscopy
KW  - permittivity
KW  - protein
KW  - DNA
KW  - amino acid
KW  - plasmid
Y1  - 2018
U6  - https://doi.org/10.1515/freq-2018-0010
SN  - 0016-1136
SN  - 2191-6349
VL  - 72
IS  - 3-4
SP  - 135
EP  - 140
PB  - De Gruyter
CY  - Berlin
ER  - 
TY  - JOUR
A1  - Eilers, Elisabeth Johanna
A1  - Kleine, Sandra
A1  - Eckert, Silvia
A1  - Waldherr, Simon
A1  - Müller, Caroline
T1  - Flower production, headspace volatiles, pollen nutrients, and florivory in tanacetum vulgare chemotypes
JF  - Frontiers in plant science : FPLS
N2  - Floral volatiles and reward traits are major drivers for the behavior of mutualistic as well as antagonistic flower visitors, i.e., pollinators and florivores. These floral traits differ tremendously between species, but intraspecific differences and their consequences on organism interactions remain largely unknown. Floral volatile compounds, such as terpenoids, function as cues to advertise rewards to pollinators, but should at the same time also repel florivores. The reward composition, e.g., protein and lipid contents in pollen, differs between individuals of distinct plant families. Whether the nutritional value of rewards within the same plant species is linked to their chemotypes, which differ in their pattern of specialized metabolites, has yet not been investigated. In the present study, we compared Tanacetum vulgare plants of five terpenoid chemotypes with regard to flower production, floral headspace volatiles, pollen macronutrient and terpenoid content, and floral attractiveness to florivorous beetles. Our analyses revealed remarkable differences between the chemotypes in the amount and diameter of flower heads, duration of bloom period, and pollen nutritional quality. The floral headspace composition of pollen-producing mature flowers, but not of premature flowers, was correlated to that of pollen and leaves in the same plant individual. For two chemotypes, florivorous beetles discriminated between the scent of mature and premature flower heads and preferred the latter. In semi-field experiments, the abundance of florivorous beetles and flower tissue miners differed between T. vulgare chemotypes. Moreover, the scent environment affected the choice and beetles were more abundant in homogenous plots composed of one single chemotype than in plots with different neighboring chemotypes. In conclusion, flower production, floral metabolic composition and pollen quality varied to a remarkable extend within the species T. vulgare, and the attractiveness of floral scent differed also intra-individually with floral ontogeny. We found evidence for a trade-off between pollen lipid content and pollen amount on a per-plant-level. Our study highlights that chemotypes which are more susceptible to florivory are less attacked when they grow in the neighborhood of other chemotypes and thus gain a benefit from high overall chemodiversity.
KW  - terpenoids
KW  - gas chromatography-mass spectrometry (GC-MS)
KW  - Asteraceae
KW  - protein
KW  - lipid-ratio
KW  - insect behavior
KW  - Phalacridae
KW  - chemodiversity
Y1  - 2021
U6  - https://doi.org/10.3389/fpls.2020.611877
SN  - 1664-462X
VL  - 11
PB  - Frontiers Media
CY  - Lausanne
ER  -