When the first humans moved out of Africa, they carried their gut microbes with them. Turns out, these microbes also evolved along with them.
The human gut microbiome is made up of hundreds to thousands of species of bacteria and archaea. Within a given species of microbe, different strains carry different genes that can affect your health and the diseases you're susceptible to.
There is pronounced variation in the microbial composition and diversity of the gut microbiome between people living in different countries around the world. Although researchers are starting to understand what factors affect microbiome composition, such as diet, there is still limited understanding on why different groups have different strains of the same species of microbes in their guts.
We are researchers who study microbial evolution and microbiomes. Our recently published study found that not only did microbes diversify with their early modern human hosts as they traveled across the globe, they followed human evolution by restricting themselves to life in the gut.
We hypothesized that as humans fanned out across the globe and diversified genetically, so did the microbial species in their guts. In other words, gut microbes and their human hosts "codiversified" and evolved together just as human beings diversified so that people in Asia look different from people in Europe, so too did their microbiomes.
To assess this, we needed to pair human genome and microbiome data from people around the world. However, data sets that provided both the microbiome data and genome information for individuals were limited when we started this study. Most publicly available data was from North America and Western Europe, and we needed data that was more representative of populations around the world.
So our research team used existing data from Cameroon, South Korea and the United Kingdom, and additionally recruited mothers and their young children in Gabon, Vietnam and Germany. We collected saliva samples from the adults to ascertain their genotype, or genetic characteristics, and fecal samples to sequence the genomes of their gut microbes.
For our analysis, we used data from 839 adults and 386 children. To assess the evolutionary histories of humans and gut microbes, we created phylogenetic trees for each person and as well as for 59 strains of the most commonly shared microbial species.
When we compared the human trees to the microbial trees, we discovered a gradient of how well they matched. Some bacterial trees didn't match the human trees at all, while some matched very well, indicating that these species codiversified with humans. Some microbial species, in fact, have been along for the evolutionary ride for over hundreds of thousands of years.
We also found that microbes that evolved in tandem with people have a unique set of genes and traits compared with microbes that had not codiversified with people. Microbes that partnered up with humans have smaller genomes and greater oxygen and temperature sensitivity, mostly unable to tolerate conditions below human body temperature.
In contrast, gut microbes with weaker ties to human evolution have traits and genes characteristic of free-living bacteria in the external environment. This finding suggests that codiversified microbes are very much dependent on the environmental conditions of the human body and must be transmitted quickly from one person to the next, either passed down generationally or between people living in the same communities.
Confirming this mode of transmission, we found that mothers and their children had the same strains of microbes in their guts. Microbes that were not codiversified, in contrast, were more likely to survive well outside of the body and may be transmitted more widely through water and soil.
Our discovery that gut microbes evolved right along with their human hosts offers another way to view the human gut microbiome. Gut microbes have passed between people over hundreds to thousands of generations, such that as humans changed, so did their gut microbes. As a result, some gut microbes behave as though they are part of the human genome: They are packages of genes that are passed between generations and shared by related individuals.
Personalized medicine and genetic testing are starting to make treatments more specific and effective for the individual. Knowing which microbes have had long-term partnerships with people may help researchers develop microbiome-based treatments specific to each population. Clinicians are already using locally sourced probiotics derived from the gut microbes of community members to treat malnutrition.
Our findings also help scientists better understand how microbes transition ecologically and evolutionarily from "free-living" in the environment to dependent on the conditions of the human gut. Codiversified microbes have traits and genes reminiscent of bacterial symbionts that live inside insect hosts. These shared features suggest that other animal hosts may also have gut microbes that codiversified with them over evolution.
Paying special attention to the microbes that share human evolutionary history can help improve understanding of the role they play in human well-being.
Taichi A. Suzuki, Postdoctoral Research Associate in Microbiome Science, Max Planck Institute for Biology and Ruth Ley, Director, Department of Microbiome Science, Max Planck Institute for Biology
This article is republished from The Conversation under a Creative Commons license. Read the original article.
See the original post here:
Like genes, your gut microbes pass from one generation to the next - Salon
- The complete plastome sequences of invasive weed Parthenium hysterophorus: genome organization, evolutionary ... - Nature.com - February 18th, 2024 [February 18th, 2024]
- Multi-omic profiling reveals associations between the gut microbiome, host genome and transcriptome in patients with ... - Journal of Translational... - February 18th, 2024 [February 18th, 2024]
- Polymerase Chain Reaction (PCR) - National Human Genome Research Institute - February 18th, 2024 [February 18th, 2024]
- Genomic Time Machine Reveals Secrets of Human DNA - SciTechDaily - February 18th, 2024 [February 18th, 2024]
- 1 Million Unannotated Exons Discovered in the Human Genome - Technology Networks - February 18th, 2024 [February 18th, 2024]
- Hope for the night parrot: bird's full genome has been sequenced - Cosmos - February 18th, 2024 [February 18th, 2024]
- RevIT AAV Enhancer: Rev-up AAV genome production in upstream manufacturing - BioProcess Insider - February 18th, 2024 [February 18th, 2024]
- Multi-omics resources for the Australian southern stuttering frog (Mixophyes australis) reveal assorted antimicrobial ... - Nature.com - February 18th, 2024 [February 18th, 2024]
- Large-scale gene expression alterations introduced by structural variation drive morphotype diversification in Brassica ... - Nature.com - February 18th, 2024 [February 18th, 2024]
- Near-gapless and haplotype-resolved apple genomes provide insights into the genetic basis of rootstock-induced ... - Nature.com - February 18th, 2024 [February 18th, 2024]
- Secrets of Night Parrot unlocked after first genome sequenced - CSIRO - February 18th, 2024 [February 18th, 2024]
- CRISPR gene editing tool gets a revolutionary high-tech upgrade - Earth.com - February 18th, 2024 [February 18th, 2024]
- Ancient retroviruses played a key role in the evolution of vertebrate brains - EurekAlert - February 18th, 2024 [February 18th, 2024]
- Natural selection and genetic diversity maintenance in a parasitic wasp during continuous biological control application - Nature.com - February 18th, 2024 [February 18th, 2024]
- Hopes elusive parrots genome will provide answers - news.com.au - February 18th, 2024 [February 18th, 2024]
- MicroRNA is the master regulator of the genome researchers are learning how to treat disease by harnessing the ... - The Conversation - November 30th, 2023 [November 30th, 2023]
- "Ground-Breaking" Release of World's Largest Whole Genome Resource - Inside Precision Medicine - November 30th, 2023 [November 30th, 2023]
- Pangenome analysis reveals genomic variations associated with domestication traits in broomcorn millet - Nature.com - November 30th, 2023 [November 30th, 2023]
- Global genetic diversity, introgression, and evolutionary adaptation of indicine cattle revealed by whole genome ... - Nature.com - November 30th, 2023 [November 30th, 2023]
- Genome characteristics of atypical porcine pestivirus from abortion cases in Shandong Province, China - Virology Journal - Virology Journal - November 30th, 2023 [November 30th, 2023]
- Correcting modification-mediated errors in nanopore sequencing by nucleotide demodification and reference-based ... - Nature.com - November 30th, 2023 [November 30th, 2023]
- CRISPR-Based "Genome Shredding" Technique Shows Promise in Treating Glioblastoma - Inside Precision Medicine - November 30th, 2023 [November 30th, 2023]
- Genome wide analysis revealed conserved domains involved in the effector discrimination of bacterial type VI secretion ... - Nature.com - November 30th, 2023 [November 30th, 2023]
- TRISH to investigate the effects of spaceflight on the human genome, central nervous system - Odessa American - November 30th, 2023 [November 30th, 2023]
- The venom preceded the stinger: Genomic studies shed light on the origins of bee venom - EurekAlert - November 30th, 2023 [November 30th, 2023]
- Integrating genomic and multiomic data for Angelica sinensis provides insights into the evolution and biosynthesis of ... - Nature.com - November 30th, 2023 [November 30th, 2023]
- Genetic diversity and ancestry of the Khmuic-speaking ethnic groups ... - Nature.com - September 21st, 2023 [September 21st, 2023]
- Researchers to Apply Genome Analysis to Childhood Cancers; Goal ... - The Japan News - September 21st, 2023 [September 21st, 2023]
- How Bats' Genomes May Help Them Avoid Cancer and Survive ... - Technology Networks - September 21st, 2023 [September 21st, 2023]
- Longitudinal genomic surveillance of carriage and transmission of ... - Nature.com - September 21st, 2023 [September 21st, 2023]
- Whole genomes from bacteria collected at diagnostic units around ... - Nature.com - September 21st, 2023 [September 21st, 2023]
- Genome-wide identification of lncRNA & mRNA for T2DM | PGPM - Dove Medical Press - September 21st, 2023 [September 21st, 2023]
- Tasmanian tiger RNA is first to be recovered from an extinct animal - Nature.com - September 21st, 2023 [September 21st, 2023]
- Loneliness and depression: bidirectional mendelian randomization ... - Nature.com - September 21st, 2023 [September 21st, 2023]
- Rome Therapeutics adds $72 million to Series B round to harness ... - OutSourcing-Pharma.com - September 21st, 2023 [September 21st, 2023]
- Mystery of 'living fossil' tree frozen in time for 66 million years finally ... - Livescience.com - September 21st, 2023 [September 21st, 2023]
- Why the human genome could be healthcares holy grail - Yahoo Finance - May 4th, 2023 [May 4th, 2023]
- Scientists Compare Genomes of 240 Mammals to Understand Human DNA - The New York Times - May 4th, 2023 [May 4th, 2023]
- Genomes From 240 Mammalian Species Help Explain 100 Years Of Evolution And Human Disease - ABP Live - May 4th, 2023 [May 4th, 2023]
- 'Deletions' from the human genome may be what made us human - Yale News - May 4th, 2023 [May 4th, 2023]
- GeneDx Adds Buccal Swab as Non-Invasive Whole Genome ... - GlobeNewswire - May 4th, 2023 [May 4th, 2023]
- Whole-genome sequencing used to track down genes behind familial glioma - Medical Xpress - May 4th, 2023 [May 4th, 2023]
- Wiggly proteins guard the genome: Dynamic network in the pores of ... - Science Daily - May 4th, 2023 [May 4th, 2023]
- Genome-Wide Splicing Quantitative Expression Locus Analysis ... - Cancer Discovery - May 4th, 2023 [May 4th, 2023]
- Digital Genome Market is expand at a CAGR of 8.6% to reach USD ... - Digital Journal - May 4th, 2023 [May 4th, 2023]
- High School Students Learn the Basics of Base Editing to Cure GFP ... - University of California San Diego - May 4th, 2023 [May 4th, 2023]
- Genomic researchers gain access to CSIRO's AI-powered data ... - Microsoft - May 4th, 2023 [May 4th, 2023]
- Archaic hominin traits through the splicing lens - Nature.com - May 4th, 2023 [May 4th, 2023]
- Critical bug in genome sequencing device scores '10' on CVSS ratings - SC Media - May 4th, 2023 [May 4th, 2023]
- Novel Genomic Approach Ensures Better Diagnosis of Hereditary ... - Technology Networks - May 4th, 2023 [May 4th, 2023]
- Intellia Therapeutics: Leading the Way in Revolutionary Genome ... - Best Stocks - May 4th, 2023 [May 4th, 2023]
- Visual tracking of viral infection dynamics reveals the synergistic ... - Nature.com - May 4th, 2023 [May 4th, 2023]
- Genome | Genome LLC | United States - March 31st, 2023 [March 31st, 2023]
- Belarus: EU and WHO deliver equipment for research of genomes of infectious disease agents - EIN News - February 24th, 2023 [February 24th, 2023]
- Gene vs. genome: Definition, function, and impact - January 30th, 2023 [January 30th, 2023]
- Big cog in the wheel: As Covid worries reappear, Insacogs genome sequencing ability must be aided by govts - Times of India - December 25th, 2022 [December 25th, 2022]
- CapitalGainsReport Sector Spotlight: Healthcare Penny Stocks On The Move (ARDX, WHSI, BNGO) - Marketscreener.com - November 25th, 2022 [November 25th, 2022]
- Genome Insight and Kun-hee Lee Child Cancer & Rare Disease Project Team of SNUH (Seoul National University Hospital) Made an Agreement About a... - November 23rd, 2022 [November 23rd, 2022]
- Genome-wide association study reveals distinct genetic associations related to leaf hair density in two lineages of wheat-wild relative Aegilops... - October 19th, 2022 [October 19th, 2022]
- The Global Genomics Market to Exhibit Growth at a CAGR of 16.90% During the Forecast Period (20222027) | DelveInsight - Yahoo Finance - October 19th, 2022 [October 19th, 2022]
- Illumina and GenoScreen Partner to Expand Access to Genomic Testing for Multidrug-Resistant Tuberculosis - PR Newswire - October 19th, 2022 [October 19th, 2022]
- Superresolution Method Poised to Better Gene Function Understanding - Photonics.com - October 19th, 2022 [October 19th, 2022]
- Genome-centric analysis of short and long read metagenomes reveals uncharacterized microbiome diversity in Southeast Asians - Nature.com - October 15th, 2022 [October 15th, 2022]
- How a New Battery Data Genome Project Will Use Vast Amounts of Information to Build Better EVs - InsideClimate News - October 15th, 2022 [October 15th, 2022]
- Scientists Reconstruct the Genome of the 180-Million-Year-Old Common Ancestor of All Mammals - SciTechDaily - October 15th, 2022 [October 15th, 2022]
- Combining OSMAC, metabolomic and genomic methods for the production and annotation of halogenated azaphilones and ilicicolins in termite symbiotic... - October 15th, 2022 [October 15th, 2022]
- Concerted expansion and contraction of immune receptor gene repertoires in plant genomes - Nature.com - October 15th, 2022 [October 15th, 2022]
- Uncovering the Full Variant Continuum with Pioneering Solutions from Bionano - Inside Precision Medicine - October 15th, 2022 [October 15th, 2022]
- Metagenomic analysis of viromes in tissues of wild Qinghai vole from the eastern Tibetan Plateau | Scientific Reports - Nature.com - October 15th, 2022 [October 15th, 2022]
- Research Assistant in Molecular and Genome Editing Therapeutics job with KINGS COLLEGE LONDON | 311876 - Times Higher Education - October 15th, 2022 [October 15th, 2022]
- Lessons learnt from COVID-19 shed light on future pandemic preparedness - The Peter Doherty Institute for Infection and Immunity - October 15th, 2022 [October 15th, 2022]
- From Neanderthal genome to Nobel prize: meet geneticist Svante Pbo - Nature.com - October 8th, 2022 [October 8th, 2022]
- Revealing the genome organization of the earliest common ancestor of all mammals - Tech Explorist - October 8th, 2022 [October 8th, 2022]
- Mitochondrial DNA Is Working Its Way Into the Human Genome - Technology Networks - October 8th, 2022 [October 8th, 2022]
- Animated Map: Where to Find Water on Mars - Visual Capitalist - October 8th, 2022 [October 8th, 2022]
- Reconstruction of The First Mammal's Genome Suggests It Had 38 Chromosomes - ScienceAlert - October 6th, 2022 [October 6th, 2022]
- Genomic Science Breakthroughs Are Happening Faster Than Ever Thanks to HPC - CIO - October 6th, 2022 [October 6th, 2022]
- Genome Of Ancient Humans Is The Winning Field Of 2022's Nobel Prize in Medicine - IFLScience - October 6th, 2022 [October 6th, 2022]
- ASU professor to study new genome editing tools with NIH Innovator Award - ASU News Now - October 6th, 2022 [October 6th, 2022]
- New R&D norms to fast-track research on genome-edited crops - The Financial Express - October 6th, 2022 [October 6th, 2022]