Jonas Söderberg scite author profile

Jonas Söderberg

4Publications

29Citation Statements Received

125Citation Statements Given

How they've been cited

How they cite others

107

120

Affiliations

Swedish University of Agricultural Sciences, Uppsala University

Publications

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Supporting the development of biobanks in low and medium income countries

Klingström

Mendy

Meunier

et al. 2016

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Abstract:Biobanks are an organized collection of biological material and associated data. They are a fundamental resource for life science research and contribute to the development of pharmaceutical drugs, diagnostic markers and to a deeper understanding of the genetics that regulate the development of all life on earth.Biobanks are well established in High Income Countries (HIC) and are rapidly emerging in Low and Middle Income Countries (LMIC). Surveys among biobanks operating in a LMIC setting indicate that limited resources and short term funding tied to specific projects threaten the sustainability of the biobanks. Fit-for-purpose biobanks targeting major societal challenges such as HIV and Malaria provide an excellent basis for integrating biobanks with the available research communities in LMIC regions. But to become sustainable for the future it is important that biobanks become an integrated part of local research communities. To achieve this, the cost of operating biobanks must be lowered, templates must be developed to support local ethics committees and researchers must be given the opportunity to build experience in successfully operating biobank based research projects.The B3Africa consortium is based on these conclusions and set up to support biobank based research by creating a cost efficient Laboratory Information Management System (LIMS) for developing biobanks and also contribute to the training and capacity building in the local research community. The technical platform called the eB3Kit is open source and consists of a LIMS and a bioinformatics module based on the eBiokit that allow researchers to take control over the analysis of their own data. Along with the technical platform the consortium will also contribute training and support for the associated infrastructures necessary to regulate the ethical and legal implications of biobank based research.

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Chromosomal genome assembly of the ethanol production strain CBS 11270 indicates a highly dynamic genome structure in the yeast species Brettanomyces bruxellensis

et al. 2019

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Here, we present the genome of the industrial ethanol production strain Brettanomyces bruxellensis CBS 11270. The nuclear genome was found to be diploid, containing four chromosomes with sizes of ranging from 2.2 to 4.0 Mbp. A 75 Kbp mitochondrial genome was also identified. Comparing the homologous chromosomes, we detected that 0.32% of nucleotides were polymorphic, i.e. formed single nucleotide polymorphisms (SNPs), 40.6% of them were found in coding regions (i.e. 0.13% of all nucleotides formed SNPs and were in coding regions). In addition, 8,538 indels were found. The total number of protein coding genes was 4897, of them, 4,284 were annotated on chromosomes; and the mitochondrial genome contained 18 protein coding genes. Additionally, 595 genes, which were annotated, were on contigs not associated with chromosomes. A number of genes was duplicated, most of them as tandem repeats, including a six-gene cluster located on chromosome 3. There were also examples of interchromosomal gene duplications, including a duplication of a six-gene cluster, which was found on both chromosomes 1 and 4. Gene copy number analysis suggested loss of heterozygosity for 372 genes. This may reflect adaptation to relatively harsh but constant conditions of continuous fermentation. Analysis of gene topology showed that most of these losses occurred in clusters of more than one gene, the largest cluster comprising 33 genes. Comparative analysis against the wine isolate CBS 2499 revealed 88,534 SNPs and 8,133 indels. Moreover, when the scaffolds of the CBS 2499 genome assembly were aligned against the chromosomes of CBS 11270, many of them aligned completely, some have chunks aligned to different chromosomes, and some were in fact rearranged. Our findings indicate a highly dynamic genome within the species B . bruxellensis and a tendency towards reduction of gene number in long-term continuous cultivation.

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The Genome of Setaria digitata: A Cattle Nematode Closely Related to Human Filarial Parasites

Senanayake

Söderberg

Põlajev

et al. 2020

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Here we present the draft genome sequence of Setaria digitata, a parasitic nematode affecting cattle. Due to its similarity to Wuchereria bancrofti, the parasitic nematode that causes lymphatic filariasis in humans, S. digitata has been used as a model organism at the genomic level to find drug targets which can be used for the development of novel drugs and/or vaccines for human filariasis. Setaria digitata causes cerebrospinal nematodiasis in goats, sheep, and horses posing a serious threat to livestock in developing countries. The genome sequence of S. digitata will assist in finding candidate genes to use as drug targets in both S. digitata and W. bancrofti. The assembled draft genome is ∼90 Mb long and contains 8,974 genomic scaffolds with a G+C content of 31.73%.

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No evidence for premenstrual behavioral changes in captive patas monkeys

Loy¹,

Lavelle²,

Mederer³

et al. 1993

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Preliminary observations of captive female patas monkeys revealed no evidence of significant changes in social and agonistic behaviors either (a) broadly across the menstrual cycle or (b) specifically during the premenstrual/menstrual-onset phase. Despite one report of PMS-like behaviors among wild baboons, at present there appears to be insufficient evidence to justify extending the PMS label to nonhuman primates.Resume. -Les observations preliminaries de singes «patas» en captivite ne revelent aucune evidence de changement significatif quant aux comportements sociaux ou agonistiques, (a) tout au long du cycle menstruel, (b) plus specifiquement pendant la phase initiale premenslruelle/menstruelle. Malgre une mention de comportements apparentes au PMS (syndrome pre-menstruel) chez les babouins sauvages, il n'existe jusqu'ä present aucune preuve süffisante pour justifier l'extension du label PMS aux primates non-humains.

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