Your search keyword '"Suokas, M. (Marko)"' showing total 2 results

1. Bacterial extracellular vesicles in the microbiome of first-pass meconium in newborn infants

Author

Turunen, J. (Jenni), Tejesvi, M. V. (Mysore V.), Suokas, M. (Marko), Virtanen, N. (Nikke), Paalanne, N. (Niko), Kaisanlahti, A. (Anna), Reunanen, J. (Justus), Tapiainen, T. (Terhi), Turunen, J. (Jenni), Tejesvi, M. V. (Mysore V.), Suokas, M. (Marko), Virtanen, N. (Nikke), Paalanne, N. (Niko), Kaisanlahti, A. (Anna), Reunanen, J. (Justus), and Tapiainen, T. (Terhi)

Abstract

Background: Bacterial extracellular vesicles (EVs) are more likely to cross biological barriers than whole-cell bacteria. We previously observed EV-sized particles by electron microscopy in the first-pass meconium of newborn infants. We hypothesized that EVs may be of bacterial origin and represent a novel entity in the human microbiome during fetal and perinatal periods. Methods: We extracted EVs from first-pass meconium samples of 17 newborn infants and performed bacterial 16S rRNA gene sequencing of the vesicles. We compared the EV content from the meconium samples of infants based on the delivery mode, and in vaginal delivery samples, based on the usage of intrapartum antibiotics. Results: We found bacterial EVs in all first-pass meconium samples. All EV samples had bacterial RNA. Most of the phyla present in the samples were Firmicutes (62%), Actinobacteriota (18%), Proteobacteria (10%), and Bacteroidota (7.3%). The most abundant genera were Streptococcus (21%) and Staphylococcus (17%). The differences between the delivery mode and exposure to antibiotics were not statistically significant. Conclusions: Bacterial EVs were present in the first-pass meconium of newborn infants. Bacterial EVs may represent an important novel feature of the gut microbiome during fetal and perinatal periods.

Published

2022

2. Recognition of candidate transcription factors related to bilberry fruit ripening by de novo transcriptome and qRT-PCR analyses

Author

Nguyen, N. (Nga), Suokas, M. (Marko), Karppinen, K. (Katja), Vuosku, J. (Jaana), Jaakola, L. (Laura), Häggman, H. (Hely), Nguyen, N. (Nga), Suokas, M. (Marko), Karppinen, K. (Katja), Vuosku, J. (Jaana), Jaakola, L. (Laura), and Häggman, H. (Hely)

Abstract

Bilberry (Vaccinium myrtillus L.) fruits are an excellent natural resource for human diet because of their special flavor, taste and nutritional value as well as medical properties. Bilberries are recognized for their high anthocyanin content and many of the genes involved in the anthocyanin biosynthesis have been characterized. So far, neither genomic nor RNA-seq data have been available for the species. In the present study, we de novo sequenced two bilberry fruit developmental stages, unripe green (G) and ripening (R). A total of 57,919 unigenes were assembled of which 80.2% were annotated against six public protein databases. The transcriptome served as exploratory data to identify putative transcription factors related to fruit ripening. Differentially expressed genes (DEGs) between G and R stages were prominently upregulated in R stage with the functional annotation indicating their main roles in active metabolism and catalysis. The unigenes encoding putative ripening-related regulatory genes, including members of NAC, WRKY, LOB, ERF, ARF and ABI families, were analysed by qRT-PCR at five bilberry developmental stages. Our de novo transcriptome database contributes to the understanding of the regulatory network associated with the fruit ripening in bilberry and provides the first dataset for wild Vaccinium species acquired by NGS technology.

Published

2018