Your search keyword '"mikrobiologi"' showing total 8,734 results

1. KARAKTERISTIK FISH CAKE DARI SURIMI LELE DUMBO (Clarias gariepinus) DENGAN BAHAN PENGIKAT YANG BERBEDA.

Author

Resi Aji, Falentina Margareta and Sahubawa, Latif

Abstract

Copyright of Indonesian Fisheries Processing Journal / Jurnal Pengolahan Hasil Perikanan Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Physicochemical, Microbiological, and Organoleptic Characteristics of IPB D1 Braised (Ungkep) Chicken at Different Storage Temperature and Different Storage Time.

Author

Nafisah, D., Wulandari, Z., Apriantini, A., and Sumantri, C.

Subjects

CHICKEN behavior, MICROBIOLOGY, REFRIGERATORS, TEMPERATURE measurements, PH standards

Abstract

Copyright of Journal of Animal Production & Processing Technology / JurnalIlmu Produksi dan Teknologi Hasil Peternakan is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. KARAKTERISTIK MUTU SIOMAI IKAN TOMAN (Channa micropeltes) SELAMA PENYIMPANAN.

Author

Aryani, Evnaweri, and Aprilianita, Rahma

Abstract

Copyright of Indonesian Fisheries Processing Journal / Jurnal Pengolahan Hasil Perikanan Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Dynamic changes in the metabolome and microbiome during Citrus depressa Hayata liquid fermentation

Author

Liu, Ta-Wei, Iskandar, Benni, Chu, Man-Hsiu, Wang, Yun-Han, Huang, Ting-An, Hsu, Su-Jung, Hsieh, Yves S. Y., Lee, Ching-Kuo, Liu, Ta-Wei, Iskandar, Benni, Chu, Man-Hsiu, Wang, Yun-Han, Huang, Ting-An, Hsu, Su-Jung, Hsieh, Yves S. Y., and Lee, Ching-Kuo

Abstract

Citri Reticulatae Pericarpium (CRP) is a common traditional Chinese herbal medicine, valued for its multi-bioactivity. However, its processing time, environment, and microorganisms all affect its quality and bioactivity. To address this, the study replaced solid-state fermentation with liquid fermentation using microorganisms and isolated Bacillus amyloliquefaciens, respectively. This aimed to discover a more stable processing method and examine metabolite-micobiota correlations. Non-targeted metabolomics identified 70 differential metabolites, focusing on amino acids, polymethoxyflavones (PMFs), and carbohydrates. Long-read sequencing showed a shift in dominant bacterial genera from Lactobacillus to Pediococcus, then to Clostridium. Spearman analysis revealed a positive correlation between specific Clostridium species and PMFs production. B. amyloliquefaciens fermentation notably increased PMFs content without reducing hesperidin levels, suggesting its potential as an alternative processing method. This study offers valuable insights into metabolome-microbiome interactions for future biotransformation research., QC 20240923

Published

2025

5. Identifikasi Kualitas Air dan Pelatihan Teknik Penjernihan Air Sederhana di Desa Tanjung Menang, Kabupaten Ogan Komering Ilir.

Author

Wicaksono, Anggun, Noviyanto, Kurnia, Alfia Rahma, A’ini, Kurratul, Hapida, Yustina, Oktiansyah, Rian, Nurokhman, Amin, and Habisukan, Ummi Hiras

Abstract

Clean water is a basic need for society. However, the problem of clean water sources still occurs in the Ogan Komering Ilir (OKI) area of South Sumatra Province. The condition of the water being brownish and oily is an unresolved problem. One source that has the potential to disrupt water quality is the presence of factories around rivers. This community service activity aims to identify water quality and provide training to the community regarding river water management strategies and drilled wells as the primary water source for obtaining clean water, as well as increasing understanding and knowledge about clean water management with the Gravity-fed Filter Technique. The method of activities related to clean water quality is carried out in four stages, namely: 1) Location survey (cross-sectional), 2) Water sampling and laboratory analysis, 3) Education on water quality standards, and 4) Training on Gravity-fed Filter Techniques. The laboratory analysis showed that the water samples smelled fishy and were brownish and oily. In addition, the results of microbiological tests on water samples contained Coliform bacteria (sanitation indicator bacteria), which were outside the provisions of Minister of Health Decree No. 907/MENKES/SK/VII/2002 concerning clean water quality requirements. Through training activities using the Gravity-fed Filter technique, the pH and bacteria contained in the water can be reduced. Clean water management strategies using the Gravity-fed Filter technique can be used as a solution to improve clean water quality. Every society can apply the Gravity-fed Filter technique. Through this activity, society has managed water sources into clean water for daily needs. [ABSTRACT FROM AUTHOR]

Published

2023

6. Karakteristik Fisikokimia, Mikrobiologi, dan Uji Pasar Yogurt Smoothies Rosela Stroberi pada Usia Remaja dan Dewasa di Bogor.

Author

Berutu, Putra Jahtra, Arief, Irma Isnafia, Soenarno, Mochammad Sriduresta, and Eko Nugrohowati Supriyadi Dekriyatna, Lucya Cyrilla

Subjects

*YOGURT, *LACTIC acid bacteria, *PERCEPTION (Philosophy), *DAIRY products, *CONSUMER preferences, *LACTIC acid

Abstract

Yogurt is a dairy product that is processed into a fermented drink using lactic acid bacteria. Smoothies are drinks made from fruit or vegetables containing milk, yogurt, or honey. Strawberry Rosella Yogurt Smoothie is yogurt that has been processed by reducing the water content and adding rosella flower extract and strawberry jam. Before being marketed, these products need to be tested for safety and market opportunities. This study aims to analyze the physicochemical characteristics, microbiology, and market tests of strawberry rosella yogurt smoothies in adolescents and adults in Bogor. The physicochemical characteristics tested included pH, water activity (aw), viscosity, and total titrated acid. The microbiological parameters tested were total lactic acid bacteria and Salmonella sp. The market parameters tested include analysis of consumer perceptions and preferences and their correlation with yogurt consumption patterns. The market test was carried out using 100 respondents consisting of 50 students from SMAN 1 Bogor and 50 students from IPB University. The results showed that the physical properties (pH, water activity, viscosity, and total lactic acid) fulfilled the SNI yogurt quality requirements. The chemical properties or nutritional content and microbiological properties of yoghurt smoothies have met the requirements for yoghurt quality standards based on SNI. The results showed that respondents had good perceptions and preferences on the attributes of smoothie yogurt. Consumer preferences regarding the appearance of the packaging in general, color, ingredient content, packaging information, and appearance of the contents of the yogurt are generally positively correlated with the price range of yogurt that consumers buy. Strawberry Rosella Yoghurt Smoothie is safe for consumption and can be marketed. [ABSTRACT FROM AUTHOR]

Published

2023

7. Meat Quality Characteristics of IPB-D1 Chicken and the Final Stock from Different Locations.

Author

K. B., Adelta, I. I., Arief, C., Sumantri, and Z., Wulandari

Subjects

MEAT quality, LIVESTOCK breeding, BACTERIAL colonies, MICROBIAL contamination, BROILER chickens, MEAT microbiology

Abstract

Copyright of Indonesian Journal of Animal & Veterinary Sciences / Jurnal Ilmu Ternak dan Veteriner is the property of Indonesian Center for Animal Science Research & Development and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

8. Penurunan waktu proses cleaning in place (CIP) dengan cara wet wash pada produksi susu bubuk di PT XYZ

Author

Anggun Dwimarlina, Setya Budi Muhammad Abduh, and Ahmad Ni’matullah Al-Baari

Subjects

alergen, cleaning, fouling, residu, pembersihan, mikrobiologi, Food processing and manufacture, TP368-456

Abstract

The diversity of products in a company makes the process of cleaning production areas important to prevent cross contamination. Cleaning in Place (CIP) is a method to clean product residues from production equipment automatically without the need to disassemble the machine. This study aims to determine the required minimum time for the CIP drying process to dry the production equipment. The experiment was done by testing the treatment based on changes in compressed air, drying, and cooling process time. Cleaning verification was done by examining visual inspection and test for detection of microbial contamination, allergens and ATP. The results showed that reducing the CIP processing time can be done by minimizing the drying time. The best treatment resulted in the treatment with compressed air 300 s, drying 900 s and cooling 900 s. This can be seen from the 3 repetitions, the results obtained by examining the overall appearance of the surface in the tote bin are clean and dry. In addition, changes in the time parameter did not affect the cleaning process of residues on the surface of the tote bin, which was shown in the results of testing for detection of microbial contamination, allergens and ATP.

Published

2023

9. KARAKTERISTIK FISIKOKIMIA, MIKROBIOLOGI, DAN LOGAM BERAT DARI SAUS KERANG MANIS (Gafrarium pectinatum).

Author

Wenno, Max Robinson and Leiwakabessy, Jusuf

Abstract

Copyright of Indonesian Fisheries Processing Journal / Jurnal Pengolahan Hasil Perikanan Indonesia is the property of IPB University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

10. Asam Folat: Peran dalam Metabolisme dan Metode Pemeriksaan

Author

Subandrate Subandrate, Medina Athiah, Safyudin Safyudin, Ella Amalia, Irsan Saleh, Hermansyah Hermansyah, and Dwirini Retno Gunarti

Subjects

asam folat, hplc, metabolisme, mikrobiologi, protein binding assay, Medicine (General), R5-920

Abstract

Tujuan: Untuk mengetahui peran asam folat dalam metabolisme dan metode pemeriksaan asam folat serum. Metode: Artikel ini dibuat dengan mengumpulkan sumber rujukan dari Sinta, Google Scholar, Pubmed, dan ScienceDirect. Artikel-artikel yang berisi mengenai asam folat (folic acid) atau folat (folate) dan metode pemeriksaan asam folat (folate detection method, folate analysis method) tahun 2005-2020 dikumpulkan kemudian dibahas dan ditarik kesimpulan secara umum. Hasil: Bentuk aktif asam folat, tetrahidrofolat, berperan dalam metabolisme purin, pirimidin (timin), dan metionin dengan cara mendonorkan unit satu karbon (metil, metilen, metenil, formimino atau formil). Kadar asam folat serum normal adalah 6-20 ng/ml. Beberapa metode digunakan untuk memeriksa kadar asam folat serum yakni mikrobiologi, HPLC dan protein binding assay. Metode mikrobiologi merupakan baku emas, tetapi membutuhkan waktu yang lama, mudah terkontaminasi dan perlu tenaga mikrobiologi khusus. Metode HPLC memberikan hasil yang lebih cepat, tetapi mahal dan kurang sensitif. Metode protein binding assay merupakan metode baru yang menggunakan protein ikat folat. Metode ini memiliki sensitivitas dan spesifisitas yang baik. Kekurangan pada metode ini adalah penyimpanan reagen dan kalibrasi. Kesimpulan: Asam folat dibutuhkan dalam metabolisme nukleotida dan asam amino. Metode pemeriksaan asam folat diharapkan dapat dikembangkan untuk pemeriksaan asam folat yang lebih sederhana, murah dan cepat.

Published

2022

11. Phylogeny and Expansion of Serine/Threonine Kinases in Phagocytotic Bacteria in the Phylum Planctomycetota

Author

Odelgard, Anna, Hägglund, Emil, Guy, Lionel, Andersson, Siv G. E., Odelgard, Anna, Hägglund, Emil, Guy, Lionel, and Andersson, Siv G. E.

Abstract

The recently isolated bacterium "Candidatus Uabimicrobium amorphum" is the only known prokaryote that can engulf other bacterial cells. Its proteome contains a high fraction of proteins involved in signal transduction systems, which is a feature normally associated with multicellularity in eukaryotes. Here, we present a protein-based phylogeny which shows that "Ca. Uabimicrobium amorphum" represents an early diverging lineage that clusters with the Saltatorellus clade within the phylum Planctomycetota. A gene flux analysis indicated a gain of 126 protein families for signal transduction functions in "Ca. Uabimicrobium amorphum", of which 66 families contained eukaryotic-like Serine/Threonine kinases with Pkinase domains. In total, we predicted 525 functional Serine/Threonine kinases in "Ca. Uabimicrobium amorphum", which represent 8% of the proteome and is the highest fraction of Serine/Threonine kinases in a bacterial proteome. The majority of Serine/Threonine kinases in this species are membrane proteins and 30% contain long, tandem arrays of WD40 or TPR domains. The pKinase domain was predicted to be located in the cytoplasm, while the WD40 and TPR domains were predicted to be located in the periplasm. Such domain combinations were also identified in the Serine/Threonine kinases of other species in the Planctomycetota, although in much lower abundances. A phylogenetic analysis of the Serine/Threonine kinases in the Planctomycetota inferred from the Pkinase domain alone provided support for lineage-specific expansions of the Serine/Threonine kinases in "Ca. Uabimicrobium amorphum". The results imply that expansions of eukaryotic-like signal transduction systems are not restricted to multicellular organisms, but have occurred in parallel in prokaryotes with predatory lifestyles and phagocytotic-like behaviors., De två första författarna delar förstaförfattarskapet

Published

2024

12. Comparative label-free proteomics of the neonatal meningitis-causing Escherichia coli K1 IHE3034 and RS218 morphotypes

Author

Zlatkov, Nikola, Gunnari, Wilma, Resch, Ulrike, Zlatkov, Nikola, Gunnari, Wilma, and Resch, Ulrike

Abstract

The proteome of two newborn meningitis Escherichia coli K1 (NMEC) morphotypes was examined via a label-free proteomics approach. Besides shared NMEC virulence factors, the two strains have different evolutionary strategies-strain IHE3034 tends to perform anaerobic respiration continuously, while strain RS218 maintains its filamentous morphotype due to active SOS response.

Published

2024

13. Continuous biohydrogen and volatile fatty acids production from cheese whey in a tubular biofilm reactor: Substrate flow rate variations and microbial dynamics

Author

Sarkar, Omprakash, Rova, Ulrika, Christakopoulos, Paul, Matsakas, Leonidas, Sarkar, Omprakash, Rova, Ulrika, Christakopoulos, Paul, and Matsakas, Leonidas

Abstract

Three tubular bioreactors with a varied substrate flow rate of (2 mL/min, 5 mL/min, and 8 mL/min) were examined for 75 days. At 8 mL/min flow rate, the biohydrogen evolution was higher (3.88 mL H2/h), while its conversion efficiency was lower compared to 5 and 2 mL/min flow rate. The formation of volatile fatty acids and ammonium was also influenced by substrate flow rates. The volatile fatty acids production was slightly higher at 2 mL/min (12.74 ± 2.42 gCOD/L) and 5 mL/min (18.09 ± 2.01 gCOD/L) while, decreasing at 8 mL/min (11.85 ± 0.78 gCOD/L). Substrate flow rate significantly affected the pattern and composition of volatile fatty acids showing higher acetic acid, butyric and propionic acid production of 4.72 ± 1.46 gCOD/L (2 mL/min) 10.41 ± 0.91 gCOD/L (5 mL/min) and 1.78 ± 0.13 gCOD/L (5 mL/min). Continuous substrate input maintained the pH in the reactor due to replacement with fresh substrate, thereby controlling feedback inhibition and boosting metabolite production. Hydrogen-producing Firmicutes on the biofilm confirmed the pivotal role of the microbial community's significant contribution to converting waste to bioenergy. Overall, the present results support the use of a continuous operation mode for large-scale biohydrogen production. However, to ensure the efficacy of the system using waste or wastewater, low substrate flow rates are recommended., Validerad;2024;Nivå 2;2024-04-05 (marisr);Full text license: CC BY

Published

2024

14. Fungal-bacterial combinations in plant health under stress : physiological and biochemical characteristics of the filamentous fungus serendipita indica and the actinobacterium zhihengliuella sp. ISTPL4 under in vitro arsenic stress

Author

Sharma, Neha, Koul, Monika, Joshi, Naveen Chandra, Dufossé, Laurent, Mishra, Arti, Sharma, Neha, Koul, Monika, Joshi, Naveen Chandra, Dufossé, Laurent, and Mishra, Arti

Abstract

Fungal-bacterial combinations have a significant role in increasing and improving plant health under various stress conditions. Metabolites secreted by fungi and bacteria play an important role in this process. Our study emphasizes the significance of secondary metabolites secreted by the fungus Serendipita indica alone and by an actinobacterium Zhihengliuella sp. ISTPL4 under normal growth conditions and arsenic (As) stress condition. Here, we evaluated the arsenic tolerance ability of S. indica alone and in combination with Z. sp. ISTPL4 under in vitro conditions. The growth of S. indica and Z. sp. ISTPL4 was measured in varying concentrations of arsenic and the effect of arsenic on spore size and morphology of S. indica was determined using confocal microscopy and scanning electron microscopy. The metabolomics study indicated that S. indica alone in normal growth conditions and under As stress released pentadecanoic acid, glycerol tricaprylate, L-proline and cyclo(L-prolyl-L-valine). Similarly, d-Ribose, 2-deoxy-bis(thioheptyl)-dithioacetal were secreted by a combination of S. indica and Z. sp. ISTPL4. Confocal studies revealed that spore size of S. indica decreased by 18% at 1.9 mM and by 15% when in combination with Z. sp. ISTPL4 at a 2.4 mM concentration of As. Arsenic above this concentration resulted in spore degeneration and hyphae fragmentation. Scanning electron microscopy (SEM) results indicated an increased spore size of S. indica in the presence of Z. sp. ISTPL4 (18 ± 0.75 µm) compared to S. indica alone (14 ± 0.24 µm) under normal growth conditions. Our study concluded that the suggested combination of microbial consortium can be used to increase sustainable agriculture by combating biotic as well as abiotic stress. This is because the metabolites released by the microbial combination display antifungal and antibacterial properties. The metabolites, besides evading stress, also confer other survival strategies. Therefore, the choice of consortia and c

Published

2024

15. A peptidoglycan N-deacetylase specific for anhydroMurNAc chain termini in Agrobacterium tumefaciens

Author

Gilmore, Michael C., Yadav, Akhilesh K., Espaillat, Akbar, Gust, Andrea A., Williams, Michelle A., Brown, Pamela J.B., Cava, Felipe, Gilmore, Michael C., Yadav, Akhilesh K., Espaillat, Akbar, Gust, Andrea A., Williams, Michelle A., Brown, Pamela J.B., and Cava, Felipe

Abstract

During growth, bacteria remodel and recycle their peptidoglycan (PG). A key family of PG-degrading enzymes is the lytic transglycosylases, which produce anhydromuropeptides, a modification that caps the PG chains and contributes to bacterial virulence. Previously, it was reported that the polar-growing Gram-negative plant pathogen Agrobacterium tumefaciens lacks anhydromuropeptides. Here, we report the identification of an enzyme, MdaA (MurNAc deacetylase A), which specifically removes the acetyl group from anhydromuropeptide chain termini in A. tumefaciens, resolving this apparent anomaly. A. tumefaciens lacking MdaA accumulates canonical anhydromuropeptides, whereas MdaA was able to deacetylate anhydro-N-acetyl muramic acid in purified sacculi that lack this modification. As for other PG deacetylases, MdaA belongs to the CE4 family of carbohydrate esterases but harbors an unusual Cys residue in its active site. MdaA is conserved in other polar-growing bacteria, suggesting a possible link between PG chain terminus deacetylation and polar growth.

Published

2024

16. Salinity and resource availability as drivers of Baltic benthic fungal diversity

Author

Lobo, Leonor Q., Izabel-Shen, Dandan, Albertsson, Jan, Raymond, Caroline, Gunnarsson, Jonas S., Broman, Elias, Nascimento, Francisco J. A., Lobo, Leonor Q., Izabel-Shen, Dandan, Albertsson, Jan, Raymond, Caroline, Gunnarsson, Jonas S., Broman, Elias, and Nascimento, Francisco J. A.

Abstract

Marine biodiversity consists of a complex network of organisms responsible for keeping the ecosystem's balance. Fungi are an understudied group of organisms despite their recognized importance for ecosystem processes and diversity. How fungi respond to environmental change remains poorly understood, especially in marine benthic habitats. The Baltic Sea is a brackish coastal ecosystem with steep environmental gradients in a relatively limited geographical area and is therefore a particularly good system to investigate the impact of different abiotic factors on benthic fungal diversity. This study used environmental DNA (eDNA) metabarcoding to analyze the spatial dynamics of benthic fungal diversity in the Baltic Sea and quantify the environmental drivers that shape these dynamics. Based on 59 stations spreading over 1145 km the results showed that benthic fungal communities were dominated by the phylum Chytridiomycota, and the fungal species Alphamyces chaetifer and Operculomyces laminatus from this phylum were the main drivers of the community structure dissimilarities observed between regions. Water depth and salinity were the main predictors of the benthic fungal community composition. The impact of nutrient availability was also significant, possibly related to the known role of Chytridiomycota species such as A. chaetifer and O. laminatus in nutrient cycling. Our results indicate that the benthic fungal diversity of the Baltic Sea is shaped by salinity gradients and nutrient availability and highlights that the current fungal biodiversity is at risk of species shift or decline with predicted changes in salinity due to climate change and intensified eutrophication.

Published

2024

17. Stable expression of HIV-1 MPER extended epitope on the surface of the recombinant probiotic bacteria Escherichia Coli Nissle 1917 using CRISPR/Cas9

Author

Ninyio, Nathaniel, Schmitt, Katherina, Sergon, Gladys, Nilsson, Charlotta, Andersson, Sören, Scherbak, Nikolai, Ninyio, Nathaniel, Schmitt, Katherina, Sergon, Gladys, Nilsson, Charlotta, Andersson, Sören, and Scherbak, Nikolai

Abstract

BACKGROUND: Mucosal vaccines have the potential to induce protective immune responses at the sites of infection. Applying CRISPR/Cas9 editing, we aimed to develop a probiotic-based vaccine candidate expressing the HIV-1 envelope membrane-proximal external region (MPER) on the surface of E. coli Nissle 1917. RESULTS: The HIV-1 MPER epitope was successfully introduced in the porin OmpF of the E. coli Nissle 1917 (EcN-MPER) and the modification was stable over 30 passages of the recombinant bacteria on the DNA and protein level. Furthermore, the introduced epitope was recognized by a human anti-HIV-1 gp41 (2F5) antibody using both live and heat-killed EcN-MPER, and this antigenicity was also retained over 30 passages. Whole-cell dot blot suggested a stronger binding of anti-HIV-1 gp41 (2F5) to heat-killed EcN-MPER than their live counterpart. An outer membrane vesicle (OMV) - rich extract from EcN-MPER culture supernatant was equally antigenic to anti-HIV-1 gp41 antibody which suggests that the MPER antigen could be harboured in EcN-MPER OMVs. Using quantitative ELISA, we determined the amount of MPER produced by the modified EcN to be 14.3 µg/108 cfu. CONCLUSIONS: The CRISPR/Cas9 technology was an effective method for establishment of recombinant EcN-MPER bacteria that was stable over many passages. The developed EcN-MPER clone was devoid of extraneous plasmids and antibiotic resistance genes which eliminates the risk of plasmid transfer to animal hosts, should this clone be used as a vaccine. Also, the EcN-MPER clone was recognised by anti-HIV-1 gp41 (2F5) both as live and heat-killed bacteria making it suitable for pre-clinical evaluation. Expression of OmpF on bacterial surfaces and released OMVs identifies it as a compelling candidate for recombinant epitope modification, enabling surface epitope presentation on both bacteria and OMVs. By applying the methods described in this study, we present a potential platform for cost-effective and rational vaccine antigen e, Correction: Stable expression of HIV-1 MPER extended epitope on the surface of the recombinant probiotic bacteria Escherichia Coli Nissle 1917 using CRISPR/Cas9. Ninyio, N., Schmitt, K., Sergon, G. et al. Microb Cell Fact 23, 75 (2024). https://doi.org/10.1186/s12934-024-02347-8

Published

2024

18. Synthesis of Bioactive Nickel Nanoparticles Using Bacterial Strains from an Antarctic Consortium

Author

Nagoth, Joseph Amruthraj, John, Maria Sindhura, Ramasamy, Kesava Priyan, Mancini, Alessio, Zannotti, Marco, Piras, Sara, Giovannetti, Rita, Rathnam, Lydia, Miceli, Cristina, Biondini, Maria Chiara, Pucciarelli, Sandra, Nagoth, Joseph Amruthraj, John, Maria Sindhura, Ramasamy, Kesava Priyan, Mancini, Alessio, Zannotti, Marco, Piras, Sara, Giovannetti, Rita, Rathnam, Lydia, Miceli, Cristina, Biondini, Maria Chiara, and Pucciarelli, Sandra

Abstract

Marine microorganisms have been demonstrated to be an important source for bioactive molecules. In this paper we report the synthesis of Ni nanoparticles (NiSNPs) used as reducing and capping agents for five bacterial strains isolated from an Antarctic marine consortium: Marinomonas sp. ef1, Rhodococcus sp. ef1, Pseudomonas sp. ef1, Brevundimonas sp. ef1, and Bacillus sp. ef1. The NiSNPs were characterized by Ultraviolet–visible (UV–vis) spectroscopy, Dynamic Light Scattering (DLS), Transmission Electron Microscopy (TEM), X-ray diffraction (XRD) and Fourier Transform Infrared (FTIR) spectroscopic analysis. The maximum absorbances in the UV–Vis spectra were in the range of 374 nm to 422 nm, corresponding to the Surface plasmon resonance (SPR) of Nickel. DLS revealed NiSNPs with sizes between 40 and 45 nm. All NiSNPs were polycrystalline with a face-centered cubic lattice, as revealed by XRD analyses. The NiSNPs zeta potential values were highly negative. TEM analysis showed that the NiSNPs were either spherical or rod shaped, well segregated, and with a size between 20 and 50 nm. The FTIR spectra revealed peaks of amino acid and protein binding to the NiSNPs. Finally, all the NiSNPs possess significant antimicrobial activity, which may play an important role in the management of infectious diseases affecting human health.

Published

2024

19. UV-induced spectral and morphological changes in bacterial spores for inactivation assessment

Author

Öberg, Rasmus, Sil, Timir B., Johansson, Alexandra C., Malyshev, Dmitry, Landström, Lars, Johansson, Susanne, Andersson, Magnus, Andersson, Per Ola, Öberg, Rasmus, Sil, Timir B., Johansson, Alexandra C., Malyshev, Dmitry, Landström, Lars, Johansson, Susanne, Andersson, Magnus, and Andersson, Per Ola

Abstract

The ability to detect and inactivate spore-forming bacteria is of significance within, for example, industrial, healthcare, and defense sectors. Not only are stringent protocols necessary for the inactivation of spores but robust procedures are also required to detect viable spores after an inactivation assay to evaluate the procedure’s success. UV radiation is a standard procedure to inactivate spores. However, there is limited understanding regarding its impact on spores’ spectral and morphological characteristics. A further insight into these UV-induced changes can significantly improve the design of spore decontamination procedures and verification assays. This work investigates the spectral and morphological changes to Bacillus thuringiensis spores after UV exposure. Using absorbance and fluorescence spectroscopy, we observe an exponential decay in the spectral intensity of amino acids and protein structures, as well as a logistic increase in dimerized DPA with increased UV exposure on bulk spore suspensions. Additionally, using micro-Raman spectroscopy, we observe DPA release and protein degradation with increased UV exposure. More specifically, the protein backbone’s 1600–1700 cm–1 amide I band decays slower than other amino acid-based structures. Last, using electron microscopy and light scattering measurements, we observe shriveling of the spore bodies with increased UV radiation, alongside the leaking of core content and disruption of proteinaceous coat and exosporium layers. Overall, this work utilized spectroscopy and electron microscopy techniques to gain new understanding of UV-induced spore inactivation relating to spore degradation and CaDPA release. The study also identified spectroscopic indicators that can be used to determine spore viability after inactivation. These findings have practical applications in the development of new spore decontamination and inactivation validation methods., Published as part of The Journal of Physical Chemistry B virtual special issue “Advances in Cellular Biophysics”.

Published

2024

20. Evaluation of enzyme-constrained genome-scale model through metabolic engineering of anaerobic co-production of 2,3-butanediol and glycerol by Saccharomyces cerevisiae

Author

Sjöberg, Gustav, Reķēna, Alīna, Fornstad, Matilda, Lahtvee, Petri Jaan, van Maris, Antonius J. A., Sjöberg, Gustav, Reķēna, Alīna, Fornstad, Matilda, Lahtvee, Petri Jaan, and van Maris, Antonius J. A.

Abstract

Enzyme-constrained genome-scale models (ecGEMs) have potential to predict phenotypes in a variety of conditions, such as growth rates or carbon sources. This study investigated if ecGEMs can guide metabolic engineering efforts to swap anaerobic redox-neutral ATP-providing pathways in yeast from alcoholic fermentation to equimolar co-production of 2,3-butanediol and glycerol. With proven pathways and low product toxicity, the ecGEM solution space aligned well with observed phenotypes. Since this catabolic pathway provides only one-third of the ATP of alcoholic fermentation (2/3 versus 2 ATP per glucose), the ecGEM predicted a growth decrease from 0.36 h−1 in the reference to 0.175 h−1 in the engineered strain. However, this <3-fold decrease would require the specific glucose consumption rate to increase. Surprisingly, after the pathway swap the engineered strain immediately grew at 0.15 h−1 with a glucose consumption rate of 29 mmol (g CDW)−1 h−1, which was indeed higher than reference (23 mmol (g CDW)−1 h−1) and one of the highest reported for S. cerevisiae. The accompanying 2,3-butanediol- (15.8 mmol (g CDW)−1 h−1) and glycerol (19.6 mmol (g CDW)−1 h−1) production rates were close to predicted values. Proteomics confirmed that this increased consumption rate was facilitated by enzyme reallocation from especially ribosomes (from 25.5 to 18.5 %) towards glycolysis (from 28.7 to 43.5 %). Subsequently, 200 generations of sequential transfer did not improve growth of the engineered strain, showing the use of ecGEMs in predicting opportunity space for laboratory evolution. The observations in this study illustrate both the current potential, as well as future improvements, of ecGEMs as a tool for both metabolic engineering and laboratory evolution., QC 20240215

Published

2024

21. Mapping pathogenic bacteria resistance against common antibiotics and their potential susceptibility to methylated white kidney bean protein

Author

Sitohy, Mahmoud, Enan, Gamal, Abdel-Shafi, Seham, El-Wafa, Neveen Abou, El-Gazzar, Nashwa, Osman, Ali, Sitohy, Basel, Sitohy, Mahmoud, Enan, Gamal, Abdel-Shafi, Seham, El-Wafa, Neveen Abou, El-Gazzar, Nashwa, Osman, Ali, and Sitohy, Basel

Abstract

As antibiotics cannot inhibit multidrug-resistant bacteria (MDR), continuous research is mandatory to find other antibacterials from natural resources. Native legume proteins and their modified forms exhibited broad spectra of high antimicrobial activities. Sixteen bacterial isolates were mapped for antibiotic resistance, showing resistance in the range of (58-92%) and (42-92%) in the case of the Gram-negative and Gram-positive bacteria, respectively. White native Phaseolus vulgaris protein (NPP) was isolated from the seeds and methylated (MPP). The MIC range of MPP against 7 MDR bacteria was 10-25 times lower than NPP and could (1 MIC) considerably inhibit their 24 h liquid growth. MPP showed higher antibacterial effectiveness than Gentamycin, the most effective antibiotic against Gram-positive bacteria and the second most effective against Gram-negative bacteria. However, MPP recorded MICs against the seven studied MDR bacteria in the 1-20 µg/mL range, the same for Gentamycin. The combination of Gentamycin and MPP produced synergistic effects against the seven bacteria studied, as confirmed by the Transmission Electron Microscopic images. The antimicrobial activity of MPP against the seven MDR bacteria remained stable after two years of cold storage at 8-10 °C as contrasted to Gentamycin, which lost 20-72% of its antimicrobial effectiveness.

Published

2024

22. Coinfection of Babesia and Borrelia in the Tick Ixodes ricinus-A Neglected Public Health Issue in Europe?

Author

Jaenson, Thomas G.T., Gray, Jeremy S., Lindgren, Per-Eric, Wilhelmsson, Peter, Jaenson, Thomas G.T., Gray, Jeremy S., Lindgren, Per-Eric, and Wilhelmsson, Peter

Abstract

Ixodes ricinus nymphs and adults removed from humans, and larvae and nymphs from birds, have been analysed for infection with Babesia species and Borrelia species previously in separately published studies. Here, we use the same data set to explore the coinfection pattern of Babesia and Borrelia species in the ticks. We also provide an overview of the ecology and potential public health importance in Sweden of I. ricinus infected both with zoonotic Babesia and Borrelia species. Among 1952 nymphs and adult ticks removed from humans, 3.1% were PCR-positive for Babesia spp. Of these Babesia-positive ticks, 43% were simultaneously Borrelia-positive. Among 1046 immatures of I. ricinus removed from birds, 2.5% were Babesia-positive, of which 38% were coinfected with Borrelia species. This study shows that in I. ricinus infesting humans or birds in Sweden, potentially zoonotic Babesia protozoa sometimes co-occur with human-pathogenic Borrelia spp. Diagnostic tests for Babesia spp. infection are rarely performed in Europe, and the medical significance of this pathogen in Europe could be underestimated.

Published

2024

23. Fitness benefits of a synonymous substitution in an ancient EF-Tu gene depend on the genetic background

Author

McGrath, Kaitlyn M., Russell, Steven J., Fer, Evrim, Garmendia, Eva, Hosgel, Ali, Baltrus, David A., Kaçar, Betül, McGrath, Kaitlyn M., Russell, Steven J., Fer, Evrim, Garmendia, Eva, Hosgel, Ali, Baltrus, David A., and Kaçar, Betül

Abstract

Synonymous mutations are changes to DNA sequence, which occur within translated genes but which do not affect the protein sequence. Although often referred to as silent mutations, evidence suggests that synonymous mutations can affect gene expression, mRNA stability, and even translation efficiency. A collection of both experimental and bioinformatic data has shown that synonymous mutations can impact cell phenotype, yet less is known about the molecular mechanisms and potential of beneficial or adaptive effects of such changes within evolved populations. Here, we report a beneficial synonymous mutation acquired via experimental evolution in an essential gene variant encoding the translation elongation factor protein EF-Tu. We demonstrate that this particular synonymous mutation increases EF-Tu mRNA and protein levels as well as global polysome abundance on RNA transcripts. Although presence of the synonymous mutation is clearly causative of such changes, we also demonstrate that fitness benefits are highly contingent on other potentiating mutations present within the genetic background in which the mutation arose. Our results underscore the importance of beneficial synonymous mutations, especially those that affect levels of proteins that are key for cellular processes.

Published

2024

24. Insights into the rapid metabolism of Geobacillus sp. LC300 : unraveling metabolic requirements and optimal growth conditions

Author

Ljungqvist, Emil E., Daga-Quisbert, Jeanett, van Maris, Antonius J. A., Gustavsson, Martin, Ljungqvist, Emil E., Daga-Quisbert, Jeanett, van Maris, Antonius J. A., and Gustavsson, Martin

Abstract

This study investigated the metabolism of Geobacillus sp. LC300, a promising biorefinery host organism with high substrate utilization rates. A new defined medium was designed and tested that allows for exponential growth to elevated cell densities suitable for quantitative physiological studies. Screening of the metabolic requirements of G. sp. LC300 revealed prototrophy for all essential amino acids and most vitamins and only showed auxotrophy for vitamin B12 and biotin. The effect of temperature and pH on growth rate was investigated, adjusting the optimal growth temperature to several degrees lower than previously reported. Lastly, studies on carbon source utilization revealed a capability for fast growth on several common carbon sources, including monosaccharides, oligosaccharides, and polysaccharides, and the highest ever reported growth rate in defined medium on glucose (2.20 h(-1)) or glycerol (1.95 h(-1)). These findings provide a foundation for further exploration of G. sp. LC300's physiology and metabolic regulation, and its potential use in bioproduction processes., QC 20231211

Published

2024

25. Functional annotation of a divergent genome using sequence and structure-based similarity

Author

Svedberg, Dennis, Winiger, Rahel R., Berg, Alexandra, Sharma, Himanshu, Tellgren-Roth, Christian, Debrunner-Vossbrinck, Bettina A., Vossbrinck, Charles R., Barandun, Jonas, Svedberg, Dennis, Winiger, Rahel R., Berg, Alexandra, Sharma, Himanshu, Tellgren-Roth, Christian, Debrunner-Vossbrinck, Bettina A., Vossbrinck, Charles R., and Barandun, Jonas

Abstract

Background Microsporidia are a large taxon of intracellular pathogens characterized by extraordinarily streamlined genomes with unusually high sequence divergence and many species-specific adaptations. These unique factors pose challenges for traditional genome annotation methods based on sequence similarity. As a result, many of the microsporidian genomes sequenced to date contain numerous genes of unknown function. Recent innovations in rapid and accurate structure prediction and comparison, together with the growing amount of data in structural databases, provide new opportunities to assist in the functional annotation of newly sequenced genomes. Results In this study, we established a workflow that combines sequence and structure-based functional gene annotation approaches employing a ChimeraX plugin named ANNOTEX (Annotation Extension for ChimeraX), allowing for visual inspection and manual curation. We employed this workflow on a high-quality telomere-to-telomere sequenced tetraploid genome of Vairimorpha necatrix. First, the 3080 predicted protein-coding DNA sequences, of which 89% were confirmed with RNA sequencing data, were used as input. Next, ColabFold was used to create protein structure predictions, followed by a Foldseek search for structural matching to the PDB and AlphaFold databases. The subsequent manual curation, using sequence and structure-based hits, increased the accuracy and quality of the functional genome annotation compared to results using only traditional annotation tools. Our workflow resulted in a comprehensive description of the V. necatrix genome, along with a structural summary of the most prevalent protein groups, such as the ricin B lectin family. In addition, and to test our tool, we identified the functions of several previously uncharacterized Encephalitozoon cuniculi genes. Conclusion We provide a new functional annotation tool for divergent organisms and employ it on a newly sequenced, high-quality microsporidian genome to s

Published

2024

26. Co-hydrothermal carbonization of microalgae and digested sewage sludge : Assessing the impact of mixing ratios on the composition of primary and secondary char

Author

Benavente, Verónica, Pérez, Carla, Jansson, Stina, Benavente, Verónica, Pérez, Carla, and Jansson, Stina

Abstract

The role of microalgae cultivation in wastewater treatment and reclamation has been studied extensively, as has the potential utility of the resulting algal biomass. Most methods for processing such biomass generate solid residues that must be properly managed to comply with current sustainable resource utilization requirements. Hydrothermal carbonization (HTC) can be used to process both individual wet feedstocks and mixed feedstocks (i.e., co-HTC). Here, we investigate co-HTC using microalgae and digested sewage sludge as feedstocks. The objectives were to (i) study the material’s partitioning into solid and liquid products, and (ii) characterize the products’ physicochemical properties. Co-HTC experiments were conducted at 180–250°C using mixed microalgae/sewage sludge feedstocks with the proportion of sewage sludge ranging from 0 to 100 %. Analyses of the hydrochar composition and the formation and composition of secondary char revealed that the content of carbonized material in the product decreased as the proportion of sewage sludge in the feedstock increased under fixed carbonization conditions. The properties of the hydrochars and the partitioning of material between the liquid phase and the hydrochar correlated linearly with the proportion of microalgae in mixed feedstocks, indicating that adding sewage sludge to microalgae had weak or non-existent synergistic effects on co-HTC outcomes. However, the proportion of sewage sludge in the feedstock did affect the secondary char. For example, adding sewage sludge reduced the abundance of carboxylic acids and ketones as well as the concentrations of higher molecular weight cholesterols. Such changes may alter the viable applications of the hydrochar., The authors would like to thank Bio4Energy, a strategic research environment appointed by the Swedish government, for supporting this work. We also thank the Industrial Doctoral School for Research and Innovation of Umeå University (Sweden), and Vatten och Avfallskompetens I Norr AB (Vakin AB), for supporting this work. We thank VAKIN for providing the sewage sludge, and the Swedish University of Agricultural Sciences (SLU) (Sweden) for providing the microalgae. We specifically thank Francesco Gentili and Johan Sandgren for the sampling of microalgae and sewage sludge, respectively, and Pär Jonsson for processing GC-MS data.

Published

2024

27. Reduction of malic acid in bilberry juice by Lactiplantibacillus plantarum-mediated malolactic fermentation

Author

Bergentall, Martina, Malafronte, Loredana, As, Dorine, Calmet, Emeline, Melin, Petter, Bergentall, Martina, Malafronte, Loredana, As, Dorine, Calmet, Emeline, and Melin, Petter

Abstract

Bilberries (Vaccinium myrtillus) are the most common wild berries in Northern Europe. A substantial amount of the berries are picked with the objective to extract highly valued products such as anthocyanins. A smaller amount of the bilberries is used to make jams and drinks, and these are generally restricted to the domestic market. One reason is the sour taste, partly as a result of the high content of malic acid. By using certain strains of lactic acid bacteria with the ability to convert malic acid to lactic acid, the taste is predicted to be more pleasant. This process is called malolactic fermentation, and historically it has mostly been used in winemaking. After testing five different starter cultures, we identified that the strain, Lactiplantibacillus plantarum LP58, can rapidly convert malic acid to lactic acid without any loss of sugar or citric acid, which strongly indicates a successful malolactic acid fermentation. As it has been reported that other strains of L. plantarum can be used as biopreservative agents, the resulting product was also tested in terms of microbial safety after prolonged storage, and by means of metagenome sequencing. The obtained product was quite tolerant to microbial growth, but this observation was rather due to an initial heat treatment than the addition of lactobacilli. Potentially, starter cultures with documented biopreservative activity can be combined with L. plantarum LP58 to obtain a more stable product. Until then, the fermented bilberry juice must be processed and preserved like non-fermented bilberry products. © 2023, The Author(s)., All bacterial starter cultures tested and used in this study were kindly supplied by SACCO. Xinmei Feng and Roger Uddstål are greatly acknowledged for their valuable ideas during the early stages of the project. We also acknowledge Unn Tjörnstrand, Ingela Persson, Alexander Plovie and Karin Bjerre for assistance with shelf-life test and preparation and analyses of metagenomic samples. This study was performed within FINEST, a research programme financed by the Swedish research council FORMAS, and by Region Västerbotten.

Published

2024

28. Novel strains of Culex flavivirus and Hubei chryso-like virus 1 from the Anopheles mosquito in western Kenya

Author

Lwande, Olivia Wesula, Näslund, Jonas, Sjödin, Andreas, Lantto, Rebecca, Luande, Verah Nafula, Bucht, Göran, Ahlm, Clas, Agwanda, Bernard, Obanda, Vincent, Evander, Magnus, Lwande, Olivia Wesula, Näslund, Jonas, Sjödin, Andreas, Lantto, Rebecca, Luande, Verah Nafula, Bucht, Göran, Ahlm, Clas, Agwanda, Bernard, Obanda, Vincent, and Evander, Magnus

Abstract

Surveillance of mosquito vectors is critical for early detection, prevention and control of vector borne diseases. In this study we used advanced molecular tools, such as DNA barcoding in combination with novel sequencing technologies to discover new and already known viruses in genetically identified mosquito species. Mosquitoes were captured using BG sentinel traps in Western Kenya during May and July 2019, and homogenized individually before pooled into groups of ten mosquitoes. The pools and individual samples were then used for molecular analysis and to infect cell cultures. Of a total of fifty-four (54) 10-pools, thirteen (13) showed cytopathic effect (CPE) on VeroB4 cells, eighteen (18) showed CPE on C6/36 cells. Eight (8) 10-pools out of the 31 CPE positive pools showed CPE on both VeroB4 and C6/36 cells. When using reverse transcriptase polymerase chain reaction (RT-PCR), Sanger sequencing and Twist Comprehensive Viral Research Panel (CVRP) (Twist Biosciences), all pools were found negative by RT-PCR when using genus specific primers targeting alphaviruses, orthobunyaviruses and virus specific primers towards o'nyong-nyong virus, chikungunya virus and Sindbis virus (previously reported to circulate in the region). Interestingly, five pools were RT-PCR positive for flavivirus. Two of the RT-PCR positive pools showed CPE on both VeroB4 and C6/36 cells, two pools showed CPE on C6/36 cells alone and one pool on VeroB4 cells only. Fifty individual mosquito homogenates from the five RT-PCR positive 10-pools were analyzed further for flavivirus RNA. Of these, 19 out of the 50 individual mosquito homogenates indicated the presence of flavivirus RNA. Barcoding of the flavivirus positive mosquitoes revealed the mosquito species as Aedes aegypti (1), Mansonia uniformis (6), Anopheles spp (3), Culex pipiens (5), Culex spp (1), Coquilletidia metallica (2) and Culex quinquefasciatus (1). Of the 19 flavivirus positive individual mosquitoes, five (5) virus positive homogen

Published

2024

29. Function and Evolution of Small Regulatory RNAs and their Associated Proteins : A Journey from Genome to Proteome

Author

Edelbroek, Bart and Edelbroek, Bart

Abstract

Organisms throughout the tree of life have evolved distinct ways to regulate gene expression. Some of these processes involve non-coding RNAs (ncRNAs), which are not translated but functional nonetheless. These ncRNAs are of utmost importance, with dysregulation of some causing severe developmental effects or even being lethal. In order to get a better fundamental understanding of gene regulation, and the ncRNAs that evolved to regulate gene expression, we study this in Amoebozoa. Members of this taxon vary greatly in lifestyle and organismal complexity. Some are strictly unicellular, free-living, whereas others, such as the social amoeba Dictyostelium discoideum can transition between unicellular and multicellular lifestyles. D. discoideum features a variety of small ncRNAs. Among these are the microRNAs. microRNAs have mostly been studied in plants and animals, where they are believed to have evolved convergently, and hypothesized to have played a role when these taxa evolved multicellular lifestyles. At what point the D. discoideum microRNAs evolved, how they function, and if they are involved in its multicellular lifestyle are fundamental questions addressed in this thesis. Here, we studied the evolution and function of microRNAs in a broad set of species belonging to Amoebozoa. We could identify microRNAs in all studied amoebae, and concluded that they are probably not involved in the evolution of multicellularity. To in detail investigate the evolution of microRNAs, we performed comparative genomics using D. discoideum and the close relative Dictyostelium firmibasis. For this, we sequenced, assembled and annotated the genome of the latter. At this point, our findings suggest that the microRNAs evolved several times in Amoebozoa, although we cannot rule out if they have a deep evolutionary history. The Class I RNAs are another type of ncRNAs. These, on the other hand, are only present in the social amoebae. They are hypothesized to regulate the transition fro

Published

2024

30. Extreme mitochondrial reduction in a novel group of free-living metamonads

Author

Williams, Shelby K., Jerlström Hultqvist, Jon, Eglit, Yana, Salas-Leiva, Dayana E., Curtis, Bruce, Orr, Russell J. S., Stairs, Courtney W., Atalay, Tuğba N., MacMillan, Naomi, Simpson, Alastair G. B., Roger, Andrew J., Williams, Shelby K., Jerlström Hultqvist, Jon, Eglit, Yana, Salas-Leiva, Dayana E., Curtis, Bruce, Orr, Russell J. S., Stairs, Courtney W., Atalay, Tuğba N., MacMillan, Naomi, Simpson, Alastair G. B., and Roger, Andrew J.

Abstract

Metamonads are a diverse group of heterotrophic microbial eukaryotes adapted to living in hypoxic environments. All metamonads but one harbour metabolically altered ‘mitochondrion-related organelles’ (MROs) with reduced functions, however the degree of reduction varies. Here, we generate high-quality draft genomes, transcriptomes, and predicted proteomes for five recently discovered free-living metamonads. Phylogenomic analyses placed these organisms in a group we name the ‘BaSk’ (Barthelonids+Skoliomonads) clade, a deeply branching sister group to the Fornicata, a phylum that includes parasitic and free-living flagellates. Bioinformatic analyses of gene models shows that these organisms are predicted to have extremely reduced MRO proteomes in comparison to other free-living metamonads. Loss of the mitochondrial iron-sulfur cluster assembly system in some organisms in this group appears to be linked to the acquisition in their common ancestral lineage of a SUF-like minimal system Fe/S cluster pathway by lateral gene transfer. One of the isolates, Skoliomonas litria, appears to have lost all other known MRO pathways. No proteins were confidently assigned to the predicted MRO proteome of this organism suggesting that the organelle has been lost. The extreme mitochondrial reduction observed within this free-living anaerobic protistan clade demonstrates that mitochondrial functions may be completely lost even in free-living organisms.

Published

2024

31. Continental scientific drilling and microbiology : (extremely) low biomass in bedrock of central Sweden

Author

Westmeijer, George, Escudero, Cristina, Bergin, Claudia, Turner, Stephanie, Ståhle, Magnus, Mehrshad, Maliheh, Leroy, Prune, Buck, Moritz, López-Hernández, Pilar, Kallmeyer, Jens, Amils, Ricardo, Bertilsson, Stefan, Dopson, Mark, Westmeijer, George, Escudero, Cristina, Bergin, Claudia, Turner, Stephanie, Ståhle, Magnus, Mehrshad, Maliheh, Leroy, Prune, Buck, Moritz, López-Hernández, Pilar, Kallmeyer, Jens, Amils, Ricardo, Bertilsson, Stefan, and Dopson, Mark

Abstract

Scientific drilling expeditions offer a unique opportunity to characterize microbial communities in the subsurface that have long been isolated from the surface. With subsurface microbial biomass being low in general, biological contamination from the drilling fluid, sample processing, or molecular work is a major concern. To address this, characterization of the contaminant populations in the drilling fluid and negative extraction controls are essential for assessing and evaluating such sequencing data. Here, rock cores down to 2250 m depth, groundwater-bearing fractures, and the drilling fluid were sampled for DNA to characterize the microbial communities using a broad genomic approach. However, even after removing potential contaminant populations present in the drilling fluid, notorious contaminants were abundant and mainly affiliated with the bacterial order Burkholderiales. These contaminant microorganisms likely originated from the reagents used for isolating DNA despite stringent quality standards during the molecular work. The detection of strictly anaerobic sulfate reducers such as Candidatus Desulforudis audaxviator suggested the presence of autochthonous deep biosphere taxa in the sequenced libraries, yet these clades represented only a minor fraction of the sequence counts ( < 0.1 %), hindering further ecological interpretations. The described methods and findings emphasize the importance of sequencing extraction controls and can support experimental design for future microbiological studies in conjunction with continental drilling operations.

Published

2024

32. Methylotrophy in the Mire : direct and indirect routes for methane production in thawing permafrost

Author

Ellenbogen, Jared B., Borton, Mikayla A., McGivern, Bridget B., Cronin, Dylan R., Hoyt, David W., Freire-Zapata, Viviana, McCalley, Carmody K., Varner, Ruth K., Crill, Patrick M., Wehr, Richard A., Chanton, Jeffrey P., Woodcroft, Ben J., Tfaily, Malak M., Tyson, Gene W., Rich, Virginia I., Wrighton, Kelly C., Ellenbogen, Jared B., Borton, Mikayla A., McGivern, Bridget B., Cronin, Dylan R., Hoyt, David W., Freire-Zapata, Viviana, McCalley, Carmody K., Varner, Ruth K., Crill, Patrick M., Wehr, Richard A., Chanton, Jeffrey P., Woodcroft, Ben J., Tfaily, Malak M., Tyson, Gene W., Rich, Virginia I., and Wrighton, Kelly C.

Abstract

While wetlands are major sources of biogenic methane (CH4), our understanding of resident microbial metabolism is incomplete, which compromises the prediction of CH4 emissions under ongoing climate change. Here, we employed genome-resolved multi-omics to expand our understanding of methanogenesis in the thawing permafrost peatland of Stordalen Mire in Arctic Sweden. In quadrupling the genomic representation of the site’s methanogens and examining their encoded metabolism, we revealed that nearly 20% of the metagenome-assembled genomes (MAGs) encoded the potential for methylotrophic methanogenesis. Further, 27% of the transcriptionally active methanogens expressed methylotrophic genes; for Methanosarcinales and Methanobacteriales MAGs, these data indicated the use of methylated oxygen compounds (e.g., methanol), while for Methanomassiliicoccales, they primarily implicated methyl sulfides and methylamines. In addition to methanogenic methylotrophy, >1,700 bacterial MAGs across 19 phyla encoded anaerobic methylotrophic potential, with expression across 12 phyla. Metabolomic analyses revealed the presence of diverse methylated compounds in the Mire, including some known methylotrophic substrates. Active methylotrophy was observed across all stages of a permafrost thaw gradient in Stordalen, with the most frozen non-methanogenic palsa found to host bacterial methylotrophy and the partially thawed bog and fully thawed fen seen to house both methanogenic and bacterial methylotrophic activities. Methanogenesis across increasing permafrost thaw is thus revised from the sole dominance of hydrogenotrophic production and the appearance of acetoclastic at full thaw to consider the co-occurrence of methylotrophy throughout. Collectively, these findings indicate that methanogenic and bacterial methylotrophy may be an important and previously underappreciated component of carbon cycling and emissions in these rapidly changing wetland habitats.

Published

2024

33. Methanolobus use unspecific methyltransferases to produce methane from dimethylsulphide in Baltic Sea sediments

Author

Tsola, S. L., Zhu, Y., Chen, Y., Sanders, I. A., Economou, C. K., Brüchert, Volker, Eyice, O., Tsola, S. L., Zhu, Y., Chen, Y., Sanders, I. A., Economou, C. K., Brüchert, Volker, and Eyice, O.

Abstract

Background In anoxic coastal and marine sediments, degradation of methylated compounds is the major route to the production of methane, a powerful greenhouse gas. Dimethylsulphide (DMS) is the most abundant biogenic organic sulphur compound in the environment and an abundant methylated compound leading to methane production in anoxic sediments. However, understanding of the microbial diversity driving DMS-dependent methanogenesis is limited, and the metabolic pathways underlying this process in the environment remain unexplored. To address this, we used anoxic incubations, amplicon sequencing, genome-centric metagenomics and metatranscriptomics of brackish sediments collected along the depth profile of the Baltic Sea with varying sulphate concentrations.Results We identified Methanolobus as the dominant methylotrophic methanogens in all our DMS-amended sediment incubations (61-99%) regardless of their sulphate concentrations. We also showed that the mtt and mta genes (trimethylamine- and methanol-methyltransferases) from Methanolobus were highly expressed when the sediment samples were incubated with DMS. Furthermore, we did not find mtsA and mtsB (methylsulphide-methyltransferases) in metatranscriptomes, metagenomes or in the Methanolobus MAGs, whilst mtsD and mtsF were found 2-3 orders of magnitude lower in selected samples.Conclusions Our study demonstrated that the Methanolobus genus is likely the key player in anaerobic DMS degradation in brackish Baltic Sea sediments. This is also the first study analysing the metabolic pathways of anaerobic DMS degradation in the environment and showing that methylotrophic methane production from DMS may not require a substrate-specific methyltransferase as was previously accepted. This highlights the versatility of the key enzymes in methane production in anoxic sediments, which would have significant implications for the global greenhouse gas budget and the methane cycle.

Published

2024

34. Chromosome-level genome assembly and annotation of the social amoeba Dictyostelium firmibasis

Author

Edelbroek, Bart, Kjellin, Jonas, Jerlström-Hultqvist, Jon, Koskiniemi, Sanna, Söderbom, Fredrik, Edelbroek, Bart, Kjellin, Jonas, Jerlström-Hultqvist, Jon, Koskiniemi, Sanna, and Söderbom, Fredrik

Abstract

Dicytostelium firmibasis is a member of Dictyostelia, a group of social amoebae that upon starvation display aggregative multicellularity where the amoebae transition from uni- to multicellular life. The D. firmibasis genome assembly that is currently available is of limited use due to its low contiguity, large number of undetermined bases, and lack of annotations. Here we used Nanopore long read sequencing, complemented with Illumina sequencing, and developmental transcriptomics as well as small RNA-sequencing, to present a new, fully annotated, chromosome-level D. firmibasis genome assembly. The new assembly contains no undetermined bases, and consists mainly of six large contigs representing the chromosomes, as well as a complete mitochondrial genome. This new genome assembly will be a valuable tool, allowing comprehensive comparison to Dictyostelium discoideum, the dictyostelid genetically tractable model. Further, the new genome will be important for studies of evolutionary processes governing the transition from unicellular to multicellular organisms and will aid in the sequencing and annotation of other dictyostelids genomes, many of which are currently of poor quality.

Published

2024

35. Evolution of microRNAs in Amoebozoa and implications for the origin of multicellularity

Author

Edelbroek, Bart, Kjellin, Jonas, Biryukova, Inna, Liao, Zhen, Lundberg, Torgny, Noegel, Angelika A., Eichinger, Ludwig, Friedländer, Marc R., Söderbom, Fredrik, Edelbroek, Bart, Kjellin, Jonas, Biryukova, Inna, Liao, Zhen, Lundberg, Torgny, Noegel, Angelika A., Eichinger, Ludwig, Friedländer, Marc R., and Söderbom, Fredrik

Abstract

MicroRNAs (miRNAs) are important and ubiquitous regulators of gene expression in both plants and animals. They are thought to have evolved convergently in these lineages and hypothesized to have played a role in the evolution of multicellularity. In line with this hypothesis, miRNAs have so far only been described in few unicellular eukaryotes. Here, we investigate the presence and evolution of miRNAs in Amoebozoa, focusing on species belonging to Acanthamoeba, Physarum and dictyostelid taxonomic groups, representing a range of unicellular and multicellular lifestyles. miRNAs that adhere to both the stringent plant and animal miRNA criteria were identified in all examined amoebae, expanding the total number of protists harbouring miRNAs from 7 to 15. We found conserved miRNAs between closely related species, but the majority of species feature only unique miRNAs. This shows rapid gain and/or loss of miRNAs in Amoebozoa, further illustrated by a detailed comparison between two evolutionary closely related dictyostelids. Additionally, loss of miRNAs in the Dictyostelium discoideum drnB mutant did not seem to affect multicellular development and, hence, demonstrates that the presence of miRNAs does not appear to be a strict requirement for the transition from uni- to multicellular life.

Published

2024

36. Microeukaryote community coalescence strengthens community stability and elevates diversity

Author

Vass, Mate, Székely, Anna J., Carlsson-Graner, Ulla, Wikner, Johan, Andersson, Agneta, Vass, Mate, Székely, Anna J., Carlsson-Graner, Ulla, Wikner, Johan, and Andersson, Agneta

Abstract

Mixing of entire microbial communities represents a frequent, yet understudied phenomenon. Here, we mimicked estuarine condition in a microcosm experiment by mixing a freshwater river community with a brackish sea community and assessed the effects of both environmental and community coalescences induced by varying mixing processes on microeukaryotic communities. Signs of shifted community composition of coalesced communities towards the sea parent community suggest asymmetrical community coalescence outcome, which, in addition, was generally less impacted by environmental coalescence. Community stability, inferred from community cohesion, differed among river and sea parent communities, and increased following coalescence treatments. Generally, community coalescence increased alpha diversity and promoted competition from the introduction (or emergence) of additional (or rare) species. These competitive interactions in turn had community stabilizing effect as evidenced by the increased proportion of negative cohesion. The fate of microeukaryotes was influenced by mixing ratios and frequencies (i.e. one-time versus repeated coalescence). Namely, diatoms were negatively impacted by coalescence, while fungi, ciliates, and cercozoans were promoted to varying extents, depending on the mixing ratios of the parent communities. Our study suggests that the predictability of coalescence outcomes was greater when the sea parent community dominated the final community, and this predictability was further enhanced when communities collided repeatedly.

Published

2024

37. Distinct communities and differing dispersal routes in bacteria and fungi of honey bees, honey, and flowers

Author

Tiusanen, Mikko, Becker-Scarpitta, Antoine, Wirta, Helena, Tiusanen, Mikko, Becker-Scarpitta, Antoine, and Wirta, Helena

Abstract

Microbiota, the communities of microbes on and in organisms or organic matter, are essential for the functioning of ecosystems. How microbes are shared and transmitted delineates the formation of a microbiota. As pollinators forage, they offer a route to transfer microbes among the flowering plants, themselves, and their nests. To assess how the two components of the microbiota, bacteria and fungi, in pollination communities are shared and transferred, we focused on the honey bee Apis mellifera and collected honey bee, honey (representing the hive microbiota), and flower samples three times during the summer in Finland. We identified the bacteria and fungi by DNA metabarcoding. To determine the impact of honey bees’ flower choices on the honey bee and hive microbiota, we identified also plant DNA in honey. The bacterial communities of honey bees, honey, and flowers all differ greatly from each other, while the fungal communities of honey bees and honey are very similar, yet different from flowers. The time of the summer and the sampling area influence all these microbiota. For flowers, the plant identity impacts both bacterial and fungal communities’ composition the most. For the dispersal pathways of bacteria to honey bees, they are acquired directly from the honey and indirectly from flowers through the honey, while fungi are directly transmitted to honey bees from flowers. Overall, the distinctiveness of the microbiota of honey bees, honey, and the surrounding flowers suggests the sharing of microbes among them occurs but plays a minor role for the established microbiota.

Published

2024

38. Evaluating bacterial spore preparation methods for scanning electron microscopy

Author

Malyshev, Dmitry, Lee, Cheng Choo, Andersson, Magnus, Malyshev, Dmitry, Lee, Cheng Choo, and Andersson, Magnus

Abstract

Scanning electron microscopy (SEM) can reveal the ultrastructure of bacterial spores, including morphology, surface features, texture, spore damage, germination, and appendages. Understanding these features can provide a basis for adherence, how physical and environmental stressors affect spore viability, integrity, and functionality, as well as the distribution and function of surface appendages. However, the spore sample preparation method can significantly impact the SEM images' appearance, resolution, and overall quality. In this study, we compare different spore preparation methods to identify optimal approaches for preparation time, spore appearance and resolved features, including the exosporium and spore pili, for SEM imaging. We use Bacillus paranthracis as model species and evaluate the efficacy of preparation protocols using different fixation and drying methods, as well as imaging under room- and cryogenic temperatures. We compare and assess method complexity to the visibility of the spore exosporium and spore appendages across different methods. Additionally, we use Haralick texture features to quantify the differences in spore surface appearance and determine the most suitable method for preserving spore structures and surface features during SEM evaluation. The findings from this study will help establish protocols for preparing bacterial spores for SEM and facilitating accurate and reliable analysis of spores' characteristics.

Published

2024

39. Leukotoxin A production and release by JP2 and non-JP2 genotype Aggregatibacter actinomycetemcomitans in relation to culture conditions

Author

Kalfas, Sotirios, Khayyat Pour, Zahra, Claesson, Rolf, Johansson, Anders, Kalfas, Sotirios, Khayyat Pour, Zahra, Claesson, Rolf, and Johansson, Anders

Abstract

Aggressive forms of periodontitis, especially in young patients, are often associated with an increased proportion of the Gram-negative bacterium Aggregatibacter actinomycetemcomitans of the microbiota of the affected periodontal sites. One of the virulence factors of A. actinomycetemcomitans is a leukotoxin (LtxA) that induces a pro-inflammatory cell death process in leukocytes. A. actinomycetemcomitans exhibits a large genetic diversity and different genotypes vary in LtxA production capacity. The genotype JP2 is a heavy LtxA producer due to a 530-base pair deletion in the promoter for the toxin genes, and this trait has been associated with an increased pathogenic potential. The present study focused on the production and release of LtxA by different A. actinomycetemcomitans genotypes and serotypes under various growth conditions. Four different strains of this bacterium were cultured in two different culture broths, and the amount of LtxA bound to the bacterial surface or released into the broths was determined. The cultures were examined during the logarithmic and the early stationary phases of growth. The JP2 genotype exhibited the highest LtxA production among the strains tested, and production was not affected by the growth phase. The opposite was observed with the other strains. The composition of the culture broth had no effect on the growth pattern of the tested strains. However, the abundant release of LtxA from the bacterial surface into the culture broth was found in the presence of horse serum. Besides confirming the enhanced leucotoxicity of the JP2 genotype, the study provides new data on LtxA production in the logarithmic and stationary phases of growth and the effect of media composition on the release of the toxin from the bacterial membrane.

Published

2024

40. Hur påverkar olika surdegar bröds egenskaper?

Author

Andersson, Elin, Schönbeck, Linda, Andersson, Elin, and Schönbeck, Linda

Abstract

Detta arbete syftade till att undersöka hur antalet mikroorganismer i en surdeg förändras beroende på vilket spannmål den förnyas med, och om odlingsmetoden av spannmålet har en inverkan. Vidare undersöktes surdegarnas inverkan på bröds bakegenskaper. Undersökningen skedde på två olika surdegar, en som var industriellt tillverkad och en som var spontanjäst. Arbetet delades upp i två delar. Först gjordes en mikrobiologisk analys på tre sorters agar, PCA - total antal, MRS - mjölksyrabakterier och MA - jäst och mögel, av grundsurdegarna. Därefter fördelades dessa i olika burkar innan de dagligen förnyades i 32 dagar med ekologiskt eller konventionellt odlat fullkornsrågmjöl eller fullkornsvetemjöl. Därefter gjordes en ny mikrobiologisk analys innan del två av arbetet påbörjades. Del två av arbetet bestod av att baka bröd med de olika surdegarna och analysera eventuella skillnader i textur och volym. Bakningen skedde i samma miljö som surdegarna förvarats i och tre bröd av varje surdeg bakades. De inledande mikrobiologiska undersökningarna visade en signifikant skillnad i total antal mikroorganismer, jäst och mögel samt mjölksyrabakterier mellan den spontanjästa och den odlade surdegen. Den spontanjästa innehöll fler mikroorganismer på samtliga testade agar. Efter 32 dagar fanns det få signifikanta skillnader mellan surdegarna, däremot fanns vissa signifikanta skillnader mellan konventionellt och ekologiskt odlat mjöl. Volymmätning av bröden visade endast på en signifikant skillnad mellan surdegarna, och texturmätningen visade endast på en signifikant skillnad mellan konventionellt och ekologiskt odlat mjöl. Vidare undersökningar rekommenderas att göras inom området, exempelvis genom att identifiera vilka stammar som finns i surdegen och hur dessa förändras över tid beroende på vilket spannmål, och hur detta har odlats, surdegen förnyas med. Vidare är forskning om lagringstemperaturens påverkan på surdegens mikrobiologiska innehåll också att rekommendera.

Published

2024

41. Catabolism and interactions of syntrophic propionate- and acetate oxidizing microorganisms under mesophilic, high-ammonia conditions

Author

Weng, Nils, Singh, Abhijeet, Ohlsson, Jonas A., Dolfing, Jan, Westerholm, Maria, Weng, Nils, Singh, Abhijeet, Ohlsson, Jonas A., Dolfing, Jan, and Westerholm, Maria

Abstract

Microbial inhibition by high ammonia concentrations is a recurring problem that significantly restricts methane formation from intermediate acids, i.e., propionate and acetate, during anaerobic digestion of protein-rich waste material. Studying the syntrophic communities that perform acid conversion is challenging, due to their relatively low abundance within the microbial communities typically found in biogas processes and disruption of their cooperative behavior in pure cultures. To overcome these limitations, this study examined growth parameters and microbial community dynamics of highly enriched mesophilic and ammonia-tolerant syntrophic propionate and acetate-oxidizing communities and analyzed their metabolic activity and cooperative behavior using metagenomic and metatranscriptomic approaches. Cultivation in batch set-up demonstrated biphasic utilization of propionate, wherein acetate accumulated and underwent oxidation before complete degradation of propionate. Three key species for syntrophic acid degradation were inferred from genomic sequence information and gene expression: a syntrophic propionate-oxidizing bacterium (SPOB) "Candidatus Syntrophopropionicum ammoniitolerans", a syntrophic acetate-oxidizing bacterium (SAOB) Syntrophaceticus schinkii and a novel hydrogenotrophic methanogen, for which we propose the provisional name "Candidatus Methanoculleus ammoniitolerans". The results revealed consistent transcriptional profiles of the SAOB and the methanogen both during propionate and acetate oxidation, regardless of the presence of an active propionate oxidizer. Gene expression indicated versatile capabilities of the two syntrophic bacteria, utilizing both molecular hydrogen and formate as an outlet for reducing equivalents formed during acid oxidation, while conserving energy through build-up of sodium/proton motive force. The methanogen used hydrogen and formate as electron sources. Furthermore, results of the present study provided a framework for fu

Published

2024

42. No colonization resistance to Campylobacter jejuni in broilers fed brown algal extract-supplemented diets

Author

Eliasson, Eliska, Sun, Li, Cervin, Gunnar, Pavia, Henrik, Tällberg, Gustav, Ellström, Patrik, Ivarsson, Emma, Eliasson, Eliska, Sun, Li, Cervin, Gunnar, Pavia, Henrik, Tällberg, Gustav, Ellström, Patrik, and Ivarsson, Emma

Abstract

Introduction Campylobacter jejuni gastroenteritis is the most commonly reported zoonosis within the EU, with poultry products regarded as the primary source of transmission to humans. Therefore, finding strategies to reduce Campylobacter colonization in broilers holds importance for public health. Recent studies suggest that supplementation of broiler feed with brown algal extracts, particularly laminarin, can provide beneficial effects on broiler gut health, growth performance, and gut microbiota. However, its effect on gut microbiota development and subsequent reduction of Campylobacter loads in broiler caeca during the later stages of the birds' lives remains unclear. Methods Experimental colonization of Ross 308 broilers with two different strains of C. jejuni was conducted, with groups fed either a basal diet or the same basal diet supplemented with 725 ppm algal extract from Saccharina latissima to provide 290 ppm laminarin. Fecal samples were collected for bacterial enumeration, and caecal samples were obtained before and after the C. jejuni challenge for the determination of microbiota development. Results and discussion No significant differences in fecal C. jejuni concentrations between the groups fed different diets or exposed to different C. jejuni strains were observed. This suggests that both strains colonized the birds equally well and that the laminarin rich algal extract did not have any inhibitory effect on C. jejuni colonization. Notably, 16S rRNA amplicon sequencing revealed detailed data on the caecal microbiota development, likely influenced by both bird age and C. jejuni colonization, which can be valuable for further development of broiler feed formulations aimed at promoting gut health.

Published

2024

43. Three concurrent mechanisms generate gene copy number variation and transient antibiotic heteroresistance

Author

Nicoloff, Hervé, Hjort, Karin, Andersson, Dan I., Wang, Helen, Nicoloff, Hervé, Hjort, Karin, Andersson, Dan I., and Wang, Helen

Abstract

Heteroresistance is a medically relevant phenotype where small antibiotic-resistant subpopulations coexist within predominantly susceptible bacterial populations. Heteroresistance reduces treatment efficacy across diverse bacterial species and antibiotic classes, yet its genetic and physiological mechanisms remain poorly understood. Here, we investigated a multi-resistant Klebsiella pneumoniae isolate and identified three primary drivers of gene dosage-dependent heteroresistance for several antibiotic classes: tandem amplification, increased plasmid copy number, and transposition of resistance genes onto cryptic plasmids. All three mechanisms imposed fitness costs and were genetically unstable, leading to fast reversion to susceptibility in the absence of antibiotics. We used a mouse gut colonization model to show that heteroresistance due to elevated resistance-gene dosage can result in antibiotic treatment failures. Importantly, we observed that the three mechanisms are prevalent among Escherichia coli bloodstream isolates. Our findings underscore the necessity for treatment strategies that address the complex interplay between plasmids, resistance cassettes, and transposons in bacterial populations.

Published

2024

44. Investigating the effects of radiation, T cell depletion, and bone marrow transplantation on murine gut microbiota

Author

Kreisinger, Jakub, Dooley, James, Singh, Kailash, Cízková, Dagmar, Schmiedová, Lucie, Bendová, Barbora, Liston, Adrian, Moudra, Alena, Kreisinger, Jakub, Dooley, James, Singh, Kailash, Cízková, Dagmar, Schmiedová, Lucie, Bendová, Barbora, Liston, Adrian, and Moudra, Alena

Abstract

Microbiome research has gained much attention in recent years as the importance of gut microbiota in regulating host health becomes increasingly evident. However, the impact of radiation on the microbiota in the murine bone marrow transplantation model is still poorly understood. In this paper, we present key findings from our study on how radiation, followed by bone marrow transplantation with or without T cell depletion, impacts the microbiota in the ileum and caecum. Our findings show that radiation has different effects on the microbiota of the two intestinal regions, with the caecum showing increased interindividual variation, suggesting an impaired ability of the host to regulate microbial symbionts, consistent with the Anna Karenina principle. Additionally, we observed changes in the ileum composition, including an increase in bacterial taxa that are important modulators of host health, such as Akkermansia and Faecalibaculum. In contrast, radiation in the caecum was associated with an increased abundance of several common commensal taxa in the gut, including Lachnospiraceae and Bacteroides. Finally, we found that high doses of radiation had more substantial effects on the caecal microbiota of the T-cell-depleted group than that of the non-T-cell-depleted group. Overall, our results contribute to a better understanding of the complex relationship between radiation and the gut microbiota in the context of bone marrow transplantation and highlight the importance of considering different intestinal regions when studying microbiome responses to environmental stressors.

Published

2024

45. Copper(I)-nitrene platform for chemoproteomic profiling of methionine

Author

Sahu, Samrat, Emenike, Benjamin, Beusch, Christian Michel, Bagchi, Pritha, Gordon, David Ezra, Raj, Monika, Sahu, Samrat, Emenike, Benjamin, Beusch, Christian Michel, Bagchi, Pritha, Gordon, David Ezra, and Raj, Monika

Abstract

Methionine plays a critical role in various biological and cell regulatory processes, making its chemoproteomic profiling indispensable for exploring its functions and potential in protein therapeutics. Building on the principle of rapid oxidation of methionine, we report Copper(I)-Nitrene Platform for robust, and selective labeling of methionine to generate stable sulfonyl sulfimide conjugates under physiological conditions. We demonstrate the versatility of this platform to label methionine in bioactive peptides, intact proteins (6.5-79.5 kDa), and proteins in complex cell lysate mixtures with varying payloads. We discover ligandable proteins and sites harboring hyperreactive methionine within the human proteome. Furthermore, this has been utilized to profile oxidation-sensitive methionine residues, which might increase our understanding of the protective role of methionine in diseases associated with elevated levels of reactive oxygen species. The Copper(I)-Nitrene Platform allows labeling methionine residues in live cancer cells, observing minimal cytotoxic effects and achieving dose-dependent labeling. Confocal imaging further reveals the spatial distribution of modified proteins within the cell membrane, cytoplasm, and nucleus, underscoring the platform's potential in profiling the cellular interactome. Methionine plays an essential role in various biological and cell regulatory processes, making its chemoproteomic profiling necessary to understand its function. Here, the authors present Copper(I)-Nitrene Platform (CuNiP) for robust and selective labelling of methionine to generate highly stable sulfonyl sulfimide conjugates under physiological conditions.

Published

2024

46. The valorisation of mine wastes : Metals dissolution through the action of acid-producing bacteria

Author

van Wyk, Nathan and van Wyk, Nathan

Abstract

Over 3 billion tonnes of metal are produced annually to be used in structural elements, as alloys, andas dopants in electronics; all of which affect every facet of our modern lives.As ore grades worsened with exploitation, mining technology improved to access the gradually scarcermetals. However, the last 50 years have experienced an inflexion point where rare earth metals havecome into greater focus as a ‘green’ surge toward global electrification has taken place. Rare earthmetals are, by definition, present in ores at low concentrations and result in greater volumes ofprocessing waste.Mine waste includes tailings, metallurgical slag, process residues, and waste effluents. These wastesare an environmental hazard, but also present an opportunity as they are often (semi)selectivelyenriched with metals other than what initially mined for. Several wastes were investigated as a sourceof critical raw materials and rare earth elements through dissolution of their bulk by organic andmineral acids produced by bacteria.The wastes investigated were a bauxite residue from Greece, several magnesium-rich wastes fromSpain, platinum group metal-containing wastes from the UK, and vanadium-containing magnetitefrom Norway.The bauxite residue showed maximal dissolution (71.22 %) in spent media from a Gluconobacteroxydans culture that contained gluconic acid at significantly lower normality than the other acidstested. This indicated that while availability of hydronium ions affect dissolution, an acid’s conjugatebase is as an important consideration. In addition, a combination of organic acids in these spentmedia may affect leaching. Although contact leaching of bauxite residue in a live G. oxydans culturemay promote leaching of some metals, other metals appeared to be minimally soluble and leavesolution after three days of exposure.The magnesium containing waste was shown to rapidly undergo dissolution in aFervidacidithiobacillus caldus culture, which produced sulfuric acid from eleme

Published

2024

47. Giardia intestinalis, Cryptosporidium spp., and other intestinal parasites in Maputo Province, Mozambique

Author

Casmo, Veronica and Casmo, Veronica

Abstract

Intestinal protozoa are among the major agents causing gastrointestinal problems in humans and other animals. Their occurrence is reported throughout the world but mainly in developing countries where environmental sanitation can be inadequate. The problem affects people of all ages, but children are especially susceptible. Symptoms include abdominal discomfort or pain, diarrhoea (acute or severe), general uneasiness, and anaemia. Transmission occurs via the faecal–oral route, person to person, and from animal to person or people to animals (i.e., zoonosis), as these agents also affect nonhuman animals. Despite the public health threat that these intestinal protozoa represent, understanding of their prevalence is sparse for many African countries, including Mozambique. This thesis addresses the prevalence of the intestinal protozoa Cryptosporidium spp. and Cystoisospora belli in adults suffering from diarrhoea, with a subset of HIV-positive adults. Additionally, this thesis analyses Giardia intestinalis and Cryptosporidium spp. in asymptomatic children under age 5 years. Cystoisospora belli oocysts were found in 25.0% of study participants, whereas Cryptosporidium oocysts were detected in 8.3%. Species identification was possible in all Cryptosporidium cases where DNA was available. Three Cryptosporidium species – C. parvum, C. hominis, and C. felis – were detected as single agents, along with one mixed infection with C. hominis/C. parvum. Subtyping of Cryptosporidium isolated at the gp60 gene revealed three anthroponotic subtype families: Ia, IIc, and IIe. G. intestinaliswas found in 72.2% (n=210/291) of study participants, and species identification by PCR was possible in 46 cases. Two assemblages were identified (A=53%, B=47%), along with four sub-assemblages (AI=37.8%, AII=15.6%, BIII=2.2%, BIV=42.2%) and one mix (BIII/BIV=2.2%).These findings, in combination with an unexpectedly high number of cases involving G. intestinalis and C. belli, indicate that the mai

Published

2024

48. Microbiology of boreal acid sulfate soils : Biogeochemical drivers of acidity generation and metals leaching

Author

Johnson, Anders and Johnson, Anders

Abstract

Acid sulfate soils are described as the nastiest soils on Earth and are broadly composed of metal sulfides. These minerals are mostly harmless in a reducing environment. However, when these soils are drained oxygen infiltration occurs. Oxidation initiates a geochemical process, thereby starting the generation of acidity. As the pH drops, a consortium of acidophilic microbiota begin to grow and flourish. These microbes catalyze the oxidation reactions, which further generates acidity, thus driving the pH even lower. The decreasing pH leads to the solubilization of any co-occurring metals within the system. During flushing events the built-up acidity and solubilized metals mobilize and flow out of the soils into surrounding waterways to the potentially lethal detriment of resident flora and fauna. This dissertation firstly explores the microbial communities that inhabit acid sulfate soils throughout Sweden and around Vaasa, Finland, and secondly the analogous communities of a mine waste rock repository in northern Sweden. Results from Finland showed an increase in relative abundances of extremely acidophilic microbes correlated to the decreasing pH values that followed the oxidation front. Acidity generation was not mitigated by additions of lime. Further laboratory incubations found that higher volumes and finer material sizes of lime delayed acid generation but did not prevent the development of neutrophilic iron and sulfur oxidizing microbes. The survey of Sweden extended the distribution range of acid sulfate soils and found community differences between the northerly and southerly acid sulfate soils, which were hypothesized to be a result of regional temperature variation. Furthermore, regional differences of the field oxidized samples disappeared following laboratory incubations, further supporting temperature as a driver of regional differences. Lastly, the Swedish waste rock repository study suggested that there were tipping points associated with ongoing oxid

Published

2024

49. Bacterial toxin delivery systems : Molecular mechanisms and potential use in probiotic bacteria

Author

Muir, Petra and Muir, Petra

Abstract

The emergence of multidrug-resistant pathogenic bacteria and the lack of novel antibiotics reaching the market have led to an increase in treatment failures and mortality worldwide. Consequently, there is an urgent need for innovative alternative approaches to combat bacterial infections. Probiotic bacteria have demonstrated potential in both treating and preventing such infections. Efforts are underway to enhance probiotics, aiming for improved efficacy in targeting and inhibiting the colonization of pathogenic bacterial strains while ensuring their safety for use. The work presented in this thesis enhances our understanding of bacterial toxin delivery systems, explores their adaptability for clinical applications in bioengineered probiotic bacteria, and offers insights into biocontainment strategies crucial for the secure utilization of these probiotic strains. My research has primarily focused on contact-dependent growth inhibition (CDI) systems, which deliver toxic proteins to closely related bacteria and require direct cell-to-cell contact. In order to use CDI systems in probiotics, we first need to expand our knowledge of the toxin delivery mechanisms employed by these systems. In paper I, we show that class II CDI systems allow for broad-range cross-species toxin delivery and growth inhibition. We found that the CDI systems tested were able to inhibit the growth of clinically relevant species, such as Enterobacter cloacae and Enterobacter aerogenes. In paper II, we found that two toxins from two different bacterial species utilize the SecYEG translocon for target cell entry, and hence that, for these toxins at least, this crucial step lacks species-specificity. In paper III, we investigated the prevalence of CDI systems in E. coli and the potential advantages these bacteria gain from hosting multiple systems. In paper IV, we wanted to further our understanding of the roles of toxin delivery systems in colonization of host. We found that toxin delivery syste

Published

2024

50. Ecological filtering drives rapid spatiotemporal dynamics in fish skin microbiomes

Author

Berggren, Hanna, Yildirim, Yeserin, Nordahl, Oscar, Larsson, Per, Dopson, Mark, Tibblin, Petter, Lundin, Daniel, Pinhassi, Jarone, Forsman, Anders, Berggren, Hanna, Yildirim, Yeserin, Nordahl, Oscar, Larsson, Per, Dopson, Mark, Tibblin, Petter, Lundin, Daniel, Pinhassi, Jarone, and Forsman, Anders

Abstract

Skin microbiomes provide vital functions, yet knowledge about the drivers and processes structuring their species assemblages is limited-especially for non-model organisms. In this study, fish skin microbiome was assessed by high throughput sequencing of amplicon sequence variants from metabarcoding of V3-V4 regions in the 16S rRNA gene on fish hosts subjected to the following experimental manipulations: (i) translocation between fresh and brackish water habitats to investigate the role of environment; (ii) treatment with an antibacterial disinfectant to reboot the microbiome and investigate community assembly and priority effects; and (iii) maintained alone or in pairs to study the role of social environment and inter-host dispersal of microbes. The results revealed that fish skin microbiomes harbour a highly dynamic microbial composition that was distinct from bacterioplankton communities in the ambient water. Microbiome composition first diverged as an effect of translocation to either the brackish or freshwater habitat. When the freshwater individuals were translocated back to brackish water, their microbiome composition converged towards the fish microbiomes in the brackish habitat. In summary, external environmental conditions and individual-specific factors jointly determined the community composition dynamics, whereas inter-host dispersal had negligible effects. The dynamics of the microbiome composition was seemingly non-affected by reboot treatment, pointing towards high resilience to disturbance. The results emphasised the role of inter-individual variability for the unexplained variation found in many host-microbiome systems, although the mechanistic underpinnings remain to be identified.

Published

2024