Your search keyword '"Mariën Janine"' showing total 5 results

1. Gene expression changes associated with the evolutionary loss of a metabolic trait: lack of lipogenesis in parasitoids

Author

Lammers, Mark, Kraaijeveld, Ken, Mariën, Janine, and Ellers, Jacintha

Published

2019

2. Coping with living in the soil: the genome of the parthenogenetic springtail Folsomia candida.

Author

Faddeeva-Vakhrusheva, Anna, Kraaijeveld, Ken, Derks, Martijn F. L., Yahya Anvar, Seyed, Agamennone, Valeria, Suring, Wouter, Kampfraath, Andries A., Ellers, Jacintha, Giang Le Ngoc, van Gestel, Cornelis A. M., Mariën, Janine, Smit, Sandra, van Straalen, Nico M., and Roelofs, Dick

Subjects

COLLEMBOLA, INSECTS, GENE expression, INSECT genetics, SOIL biology, INSECT behavior, INSECT adaptation, GENE clusters

Abstract

Background: Folsomia candida is a model in soil biology, belonging to the family of Isotomidae, subclass Collembola. It reproduces parthenogenetically in the presence of Wolbachia, and exhibits remarkable physiological adaptations to stress. To better understand these features and adaptations to life in the soil, we studied its genome in the context of its parthenogenetic lifestyle. Results: We applied Pacific Bioscience sequencing and assembly to generate a reference genome for F. candida of 221.7 Mbp, comprising only 162 scaffolds. The complete genome of its endosymbiont Wolbachia, was also assembled and turned out to be the largest strain identified so far. Substantial gene family expansions and lineage-specific gene clusters were linked to stress response. A large number of genes (809) were acquired by horizontal gene transfer. A substantial fraction of these genes are involved in lignocellulose degradation. Also, the presence of genes involved in antibiotic biosynthesis was confirmed. Intra-genomic rearrangements of collinear gene clusters were observed, of which 11 were organized as palindromes. The Hox gene cluster of F. candida showed major rearrangements compared to arthropod consensus cluster, resulting in a disorganized cluster. Conclusions: The expansion of stress response gene families suggests that stress defense was important to facilitate colonization of soils. The large number of HGT genes related to lignocellulose degradation could be beneficial to unlock carbohydrate sources in soil, especially those contained in decaying plant and fungal organic matter. Intra- as well as inter-scaffold duplications of gene clusters may be a consequence of its parthenogenetic lifestyle. This high quality genome will be instrumental for evolutionary biologists investigating deep phylogenetic lineages among arthropods and will provide the basis for a more mechanistic understanding in soil ecology and ecotoxicology. [ABSTRACT FROM AUTHOR]

Published

2017

3. Reference genes for QRT-PCR tested under various stress conditions in Folsomia candida and Orchesella cincta (Insecta, Collembola).

Author

de Boer, Muriel E., de Boer, Tjalf E., Mariën, Janine, Timmermans, Martijn J. T. N., Nota, Benjamin, van Straalen, Nico M., Ellers, Jacintha, and Roelofs, Dick

Subjects

GENES, DNA microarrays, GENETICS, GENE expression, ENVIRONMENTAL sciences, MOLECULAR biology

Abstract

Background: Genomic studies measuring transcriptional responses to changing environments and stress currently make their way into the field of evolutionary ecology and ecotoxicology. To investigate a small to medium number of genes or to confirm large scale microarray studies, Quantitative Reverse Transcriptase PCR (QRT-PCR) can achieve high accuracy of quantification when key standards, such as normalization, are carefully set. In this study, we validated potential reference genes for their use as endogenous controls under different chemical and physical stresses in two species of soil-living Collembola, Folsomia candida and Orchesella cincta. Treatments for F. candida were cadmium exposure, phenanthrene exposure, desiccation, heat shock and pH stress, and for O. cincta cadmium, desiccation, heat shock and starvation. Results: Eight potential reference genes for F. candida and seven for O. cincta were ranked by their stability per stress factor using the programs geNorm and Normfinder. For F. candida the succinate dehydrogenase (SDHA) and eukaryotic transcription initiation factor 1A (ETIF) genes were found the most stable over the different treatments, while for O. cincta, the beta actin (ACTb) and tyrosine 3-monooxygenase (YWHAZ) genes were the most stable. Conclusion: We present a panel of reference genes for two emerging ecological genomic model species tested under a variety of treatments. Within each species, different treatments resulted in differences in the top stable reference genes. Moreover, the two species differed in suitable reference genes even when exposed to similar stresses. This might be attributed to dissimilarity of physiology. It is vital to rigorously test a panel of reference genes for each species and treatment, in advance of relative quantification of QRT-PCR gene expression measurements. [ABSTRACT FROM AUTHOR]

Published

2009

4. Collembase: a repository for springtail genomics and soil quality assessment.

Author

Timmermans MJ, de Boer ME, Nota B, de Boer TE, Mariën J, Klein-Lankhorst RM, van Straalen NM, and Roelofs D

Subjects

Animals, Computational Biology methods, Databases as Topic, Environmental Monitoring, Gene Expression Profiling, Information Storage and Retrieval methods, Molecular Sequence Data, Soil Pollutants analysis, Arthropods genetics, Databases, Nucleic Acid, Expressed Sequence Tags chemistry, Genomics methods, Sequence Analysis, DNA methods, Soil analysis

Abstract

Background: Environmental quality assessment is traditionally based on responses of reproduction and survival of indicator organisms. For soil assessment the springtail Folsomia candida (Collembola) is an accepted standard test organism. We argue that environmental quality assessment using gene expression profiles of indicator organisms exposed to test substrates is more sensitive, more toxicant specific and significantly faster than current risk assessment methods. To apply this species as a genomic model for soil quality testing we conducted an EST sequencing project and developed an online database., Description: Collembase is a web-accessible database comprising springtail (F. candida) genomic data. Presently, the database contains information on 8686 ESTs that are assembled into 5952 unique gene objects. Of those gene objects approximately 40% showed homology to other protein sequences available in GenBank (blastx analysis; non-redundant (nr) database; expect-value < 10-5). Software was applied to infer protein sequences. The putative peptides, which had an average length of 115 amino-acids (ranging between 23 and 440) were annotated with Gene Ontology (GO) terms. In total 1025 peptides (approximately 17% of the gene objects) were assigned at least one GO term (expect-value < 10-25). Within Collembase searches can be conducted based on BLAST and GO annotation, cluster name or using a BLAST server. The system furthermore enables easy sequence retrieval for functional genomic and Quantitative-PCR experiments. Sequences are submitted to GenBank (Accession numbers: EV473060 - EV481745)., Conclusion: Collembase http://www.collembase.org is a resource of sequence data on the springtail F. candida. The information within the database will be linked to a custom made microarray, based on the Agilent platform, which can be applied for soil quality testing. In addition, Collembase supplies information that is valuable for related scientific disciplines such as molecular ecology, ecogenomics, molecular evolution and phylogenetics.

Published

2007

5. Recombinational micro-evolution of functionally different metallothionein promoter alleles from Orchesella cincta.

Author

Janssens TK, Mariën J, Cenijn P, Legler J, van Straalen NM, and Roelofs D

Subjects

Alleles, Animals, Cadmium toxicity, Chromosome Walking, Genes, Reporter, Insecta drug effects, Luciferases, Sequence Analysis, DNA, Soil Pollutants toxicity, Transcription Factors genetics, Evolution, Molecular, Insecta genetics, Metallothionein genetics, Promoter Regions, Genetic, Recombination, Genetic, Transcription, Genetic

Abstract

Background: Metallothionein (mt) transcription is elevated in heavy metal tolerant field populations of Orchesella cincta (Collembola). This suggests that natural selection acts on transcriptional regulation of mt in springtails at sites where cadmium (Cd) levels in soil reach toxic values This study investigates the nature and the evolutionary origin of polymorphisms in the metallothionein promoter (pmt) and their functional significance for mt expression., Results: We sequenced approximately 1600 bp upstream the mt coding region by genome walking. Nine pmt alleles were discovered in NW-European populations. They differ in the number of some indels, consensus transcription factor binding sites and core promoter elements. Extensive recombination events between some of the alleles can be inferred from the alignment. A deviation from neutral expectations was detected in a cadmium tolerant population, pointing towards balancing selection on some promoter stretches. Luciferase constructs were made from the most abundant alleles, and responses to Cd, paraquat (oxidative stress inducer) and moulting hormone were studied in cell lines. By using paraquat we were able to dissect the effect of oxidative stress from the Cd specific effect, and extensive differences in mt induction levels between these two stressors were observed., Conclusion: The pmt alleles evolved by a number of recombination events, and exhibited differential inducibilities by Cd, paraquat and molting hormone. In a tolerant population from a metal contaminated site, promoter allele frequencies differed significantly from a reference site and nucleotide polymorphisms in some promoter stretches deviated from neutral expectations, revealing a signature of balancing selection. Our results suggest that the structural differences in the Orchesella cincta metallothionein promoter alleles contribute to the metallothionein -over-expresser phenotype in cadmium tolerant populations.

Published

2007