Monday, November 2, 2020

The Blastocystis PubMLST database now has a new look!

Thanks to Keith Jolley and colleauges, the PubMLST site now has a new look! Why not try and visit the Blastocystis section? It's available here

The Blastocystis database has mostly been used to identify whether subtypes that are shared between humans are animals reflect the same strains or not based on intra-subtype genetic variation (allele analysis), for which is works quite well. For this purpose, you should use DNA sequences reflecting the barcode region.

 You can query a single sequence or a whole batch of sequences. On the landing page, simply press 'Typing' and then opt for 'Single sequence' or 'Batch seqeunces', depending on what you want to analyse.

It's our ambition to expand the database with more subtype alleles, since this will allow all Blastocystis researchers interested in Blastocystis epidemiology to query their barcode sequences against a curated, standardised database. However, the genetic universe of Blastocystis is rapidly expanding, so it can be difficult to keep up! 

This site works best with Sanger sequences, or, possibly, consensus sequences generated based on next-generation sequencing of the 5'-end of the SSU rRNA gene of Blastocystis; we still haven't very much experience with the latter.


 

Update on 3rd International Blastocystis Conference 2021 2-4 of June 2021

Hello!

I would like to draw your attention to updates on the 3rd International Blastocystis Conference, which is very much ON, although in the virtual format.

Please go here for information.

I really hope that you will support the conference by your presence and active participation!

"Even though we wanted to see you in person in the beautiful Chania next year, we have decided for everyone’s safety to convert the 3rd International Blastocystis Conference into a virtual conference. The conference will take place between 2nd and 4th of June 2021 and we will make sure that it will also be tailored in the various time zones."

Thursday, February 20, 2020

Free access to fresh articles on Blastocystis - subtypes and lifecycle

Anyone with the links below can access our recent articles on Blastocystis for free over the next 50 days.

Please go here to download
Preempting Pandora’s Box: Blastocystis Subtypes Revisited

Please go here to download
Blastocystis - Parasite of the Month 

Both have been published in the March 2020 issue of Trends in Parasitology.

Happy reading!  

Thursday, January 30, 2020

Pre-empting Pandora's Box - Update on Blastocystis Subtypes and Reference Data

here Back in 2006, when we came up with the subtype terminology for Blastocystis, the spectrum of and boundaries between Blastocystis subtypes were quite clear and distinct. Since then, the genetic make-up of Blastocystis has appeared to be an even bigger universe than we (or at least I) expected, and we may be far from having explored the entire 'galaxy' yet.

New technologies make it easier to sequence DNA, and sequences attributed to Blastocystis are accumulating in the publicly available databases with great speed. While this situation is one of the things that stimulate research (genetic diversity, co-evolution, host specificity, parasite-host-microbiome interaction, etc.), issues have emerged when it comes quality-controlling DNA sequences and putting taxonomic identifiers on these sequences.

For Blastocystis, the main taxonomic identifier is the 'subtype'. In 2013, 17 subtypes of Blastocystis had been acknowledged based on SSU rDNA analysis, and since then, quite a few more have been suggested by independent researchers all around the world. While it's great to see the field advance and more and more researchers 'checking in' on Blastocystis, care should be taken to ensure that Blastocystis terminology remains a useful one. And this... is not an easy task!

Some things are relatively straightforward though. For instance, sequence quality control. A simple BLAST query in GenBank (NCBI Database) should tell you whether your sequence is Blastocystis or something else. Like banana. Or asparagus. DNA sequence chimeras are sequences where one piece of DNA is combined with a piece of DNA from another strain/species/genus/etc., which can happen during PCR-based amplification of DNA. Suppose you have a sequence that is 75% Blastocystis and 25% banana. If you BLAST such a sequence, you might get Blastocystis as the top hit, but with a modest amount of sequence identity - maybe 85%. If you're not cautious, you might jump to the conclusion that this might be a new subtype, since 85% similarity is a lot less than the 95-97% similarity that is used pragmatically to delimit the boundary between subtypes. But if you look carefully at the alignment of the query sequence and the reference sequence, you'll probably note that a large part of the sequence aligns very well to the most similar reference sequence, while a minor part of it has great dissimilarity. This should be a warning sign, and you should try and BLAST only the bit of the sequence not aligning up well... and when you do this, you might end up with... banana! In which case you would have to discard this part of the sequence. Please also see one of my recent posts for more on this. If you do not check for chimeras, you might end up including chimeric DNA sequences in your phylogenetic analyses that will distort and confuse the interpretation and - in the worst case - lead to erroneous calling of new subtypes.

What is less easy is to set a 'one-fits-all' threshold for sequence similarity... how similar can Blastocystis DNA sequences be to be considered the same subtype? When do you have evidence of a 'new' subtype? It's difficult to know, as long as the data available in public databases is so limited as it is. Moreover, researchers do not always use the same genetic markers. It's still common practice to amplify and sequence only about 1/3 of the SSU rRNA gene and use that as a taxonomic identifier. But if it's not the same 1/3 then it gets tricky to compare data. Moreover, we actually need near-complete SSU rDNA sequences (at least 1600 bp or so) to be able to infer robust phylogenetic relationships between reference sequences and sequences potentially reflecting new subtypes. Obviously, this is because variation can exist across the entire SSU rRNA gene.

One subtype that has proven particularly challenging is ST14, a subtype which is common in larger herbivourous mammals, is very difficult to delimit. It may easily be confused with other subtypes, if sufficiently long sequences are not used for investigation. To this end, we try to keep a pragmatic approach to Blastocystis subtype terminology, and it may turn out that it would be more practical and relevant to refer to ST24 and ST25 as ST14 (see figure below). For now, we suggest keeping them as separate subtypes. Near-complete Blastocystis SSU rDNA sequences from a lot of larger herbivorous mammals will help us resolve the taxonomy in the top part of the tree shown in the figure above.

In terms of acquiring near-complete SSU rDNA sequences, I would personally recommend MinION sequencing of PCR products obtained by the universal eukaryotic primers RD5 + RD3. And if DNA from cultures isused (yes, it IS possible to culture Blastocystis not only from human hosts, but also from a variety of animals), then then MinION sequencing and analysis of the data output should be a straight-forward and relative cost-effective task.

Figure. As of January 2020, 'real' Blastocystis subtypes are most likely subtypes 1–17, 21, 23–26. This simplified phylogeny gives and indication of the relatedness of the subtypes and the relative host specificity. Humans can host subtypes 1–9 and also 12; when subtypes other than 1–4 are encountered in human samples, this may reflect cases of zoonotic transmission.


Graham Clark and I just published an article in Trends in Parasitology on this, and we concluded that some of the newly proposed subtypes are in fact invalid. Invalid subtypes (subtypes 18, 19, 20, 22) typically reflected DNA sequence chimeras.

In the figure above, you can see the subtypes identified to date that we consider valid.

We also provided updated guidelines on Blastocystis subtyping. One very important thing to include here is reference sequence data. It would be very useful if our wonderful Blasto colleagues could all try and use the same reference sequences when they develop multiple sequence alignments for phylogenetic analyses. We have already done all the work for you, so all there is to it, is to download the sequences from London School of Hygiene and Tropical Medicine's server available here and align them with your own DNA sequences. It would make life easier for all of us!

🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞🌞

Corrected proofs of the article can be downloaded here.

Thanks for reading!

Thursday, January 23, 2020

ECCMID 2020

I look very much forward to the annual European Congress in Clinical Microbiology and Infectious Diseases, which this year will take place in April in Paris.

Apart from catching up with colleagues, a few of whom I've known for about 15 years, one of the things that I really look forward to is a session that I'll be co-chairing with Prof Laurence Delhaes with the title

The gut microbiome: not only bacteria, but also parasites and fungi!
It's a 2-hour symposium including these talks and presenters:


Does a healthy gut microbiome include parasites and yeast?
Dr. Pauline Scanlan
 
Within population diversification and evolution in the host
Dr. Daniel Lopez
 
The unexplored diversity of the gut microbiome: how can we profile yeasts and protozoa from metagenomics?
Prof. Nicola Segata
 
The microbiota of parasites
Dr. Cinzia Cantacessi

The symposium is co-organised by ESGS - ESCMID Study Group for Staphylococci and Staphylococcal Diseases, ESGPHM - ESCMID Study Group for Public Health Microbiology, ESGNI - ESCMID Study Group for Nosocomial Infections

For more information, please go here.