Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design

Yan Shao; Shuyi Wang; Bonface M. Gichuki; Mark D. Stares; Timothy J. Rozday; Nitin Kumar; Hilary P. Browne; Nicholas J.R. Dawson; James M. Njunge; Caroline Tigoi; Narshion Ngao; Mohammod Jobayer Chisti; Benson O. Singa; Samuel Kariuki; Abdoulaye Hama Diallo; Ali Faisal Saleem; Syed Asad Ali; Ezekiel Mupere; Emmie Mbale; Kirkby D. Tickell; Wieger P. Voskuijl; Christina L. Lancioni; Robert H.J. Bandsma; Tahmeed Ahmed; Judd L. Walson; James A. Berkley; Trevor D. Lawley

doi:10.1016/j.cell.2026.01.007

Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design

Yan Shao
, Shuyi Wang
, Bonface M. Gichuki
, Mark D. Stares
, Timothy J. Rozday
, Nitin Kumar
, Hilary P. Browne
, Nicholas J.R. Dawson
, James M. Njunge
, Caroline Tigoi
, Narshion Ngao
, Mohammod Jobayer Chisti
, Benson O. Singa
, Samuel Kariuki
, Abdoulaye Hama Diallo
, Ali Faisal Saleem
, Syed Asad Ali
, Ezekiel Mupere
, Emmie Mbale
, Kirkby D. Tickell

Wieger P. Voskuijl, Christina L. Lancioni, Robert H.J. Bandsma, Tahmeed Ahmed, Judd L. Walson, James A. Berkley, Trevor D. Lawley

Division of Woman and Child Health, Medical College, Pakistan

Research output: Contribution to journal › Article › peer-review

Abstract

Bifidobacterium longum and B. infantis are pioneer colonizers of the neonatal gut and are widely used as probiotics to support infant growth, development, and disease resistance. However, commercial strains derived largely from high-income countries (HICs) may be suboptimal for infants in low- and middle-income countries (LMICs). We assembled a global genomic atlas of more than 4,000 genomes from 48 countries, increasing representation from LMICs by 12- to 17-fold. High-resolution phylogenomic and functional analyses support delineating B. longum and B. infantis as distinct species with divergent functions and epidemiological patterns. B. infantis dominates early-life microbiota in LMICs but is rarely detected in HICs. Natural B. infantis strains show extreme biogeographic stratification and predicted adaptations to local plant-glycan-rich diets and breast-milk-derived substrates, including urea and B vitamins. This genomic resource enables genome-guided selection of geographically matched strains to inform more effective probiotics and precision microbiome therapeutics for diverse infant populations.

Original language	English (US)
Journal	Cell
DOIs	https://doi.org/10.1016/j.cell.2026.01.007
Publication status	Accepted/In press - 2026

Keywords

Bifidobacterium infantis
Bifidobacterium longum
bifidobacteria
early life microbiome
industrialization
metagenomics
microbial ecology
phylogenomics
probiotics
strain-level variation

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10.1016/j.cell.2026.01.007

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Shao, Y., Wang, S., Gichuki, B. M., Stares, M. D., Rozday, T. J., Kumar, N., Browne, H. P., Dawson, N. J. R., Njunge, J. M., Tigoi, C., Ngao, N., Chisti, M. J., Singa, B. O., Kariuki, S., Diallo, A. H., Saleem, A. F., Ali, S. A., Mupere, E., Mbale, E., ... Lawley, T. D. (Accepted/In press). Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design. Cell. https://doi.org/10.1016/j.cell.2026.01.007

@article{b9ea5994d7c6472ba5d17a7db01290c3,

title = "Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design",

abstract = "Bifidobacterium longum and B. infantis are pioneer colonizers of the neonatal gut and are widely used as probiotics to support infant growth, development, and disease resistance. However, commercial strains derived largely from high-income countries (HICs) may be suboptimal for infants in low- and middle-income countries (LMICs). We assembled a global genomic atlas of more than 4,000 genomes from 48 countries, increasing representation from LMICs by 12- to 17-fold. High-resolution phylogenomic and functional analyses support delineating B. longum and B. infantis as distinct species with divergent functions and epidemiological patterns. B. infantis dominates early-life microbiota in LMICs but is rarely detected in HICs. Natural B. infantis strains show extreme biogeographic stratification and predicted adaptations to local plant-glycan-rich diets and breast-milk-derived substrates, including urea and B vitamins. This genomic resource enables genome-guided selection of geographically matched strains to inform more effective probiotics and precision microbiome therapeutics for diverse infant populations.",

keywords = "Bifidobacterium infantis, Bifidobacterium longum, bifidobacteria, early life microbiome, industrialization, metagenomics, microbial ecology, phylogenomics, probiotics, strain-level variation",

author = "Yan Shao and Shuyi Wang and Gichuki, \{Bonface M.\} and Stares, \{Mark D.\} and Rozday, \{Timothy J.\} and Nitin Kumar and Browne, \{Hilary P.\} and Dawson, \{Nicholas J.R.\} and Njunge, \{James M.\} and Caroline Tigoi and Narshion Ngao and Chisti, \{Mohammod Jobayer\} and Singa, \{Benson O.\} and Samuel Kariuki and Diallo, \{Abdoulaye Hama\} and Saleem, \{Ali Faisal\} and Ali, \{Syed Asad\} and Ezekiel Mupere and Emmie Mbale and Tickell, \{Kirkby D.\} and Voskuijl, \{Wieger P.\} and Lancioni, \{Christina L.\} and Bandsma, \{Robert H.J.\} and Tahmeed Ahmed and Walson, \{Judd L.\} and Berkley, \{James A.\} and Lawley, \{Trevor D.\}",

note = "Publisher Copyright: {\textcopyright} 2026 The Author(s).",

year = "2026",

doi = "10.1016/j.cell.2026.01.007",

language = "English (US)",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier BV",

}

Shao, Y, Wang, S, Gichuki, BM, Stares, MD, Rozday, TJ, Kumar, N, Browne, HP, Dawson, NJR, Njunge, JM, Tigoi, C, Ngao, N, Chisti, MJ, Singa, BO, Kariuki, S, Diallo, AH, Saleem, AF, Ali, SA, Mupere, E, Mbale, E, Tickell, KD, Voskuijl, WP, Lancioni, CL, Bandsma, RHJ, Ahmed, T, Walson, JL, Berkley, JA & Lawley, TD 2026, 'Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design', Cell. https://doi.org/10.1016/j.cell.2026.01.007

TY - JOUR

T1 - Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design

AU - Shao, Yan

AU - Wang, Shuyi

AU - Gichuki, Bonface M.

AU - Stares, Mark D.

AU - Rozday, Timothy J.

AU - Kumar, Nitin

AU - Browne, Hilary P.

AU - Dawson, Nicholas J.R.

AU - Njunge, James M.

AU - Tigoi, Caroline

AU - Ngao, Narshion

AU - Chisti, Mohammod Jobayer

AU - Singa, Benson O.

AU - Kariuki, Samuel

AU - Diallo, Abdoulaye Hama

AU - Saleem, Ali Faisal

AU - Ali, Syed Asad

AU - Mupere, Ezekiel

AU - Mbale, Emmie

AU - Tickell, Kirkby D.

AU - Voskuijl, Wieger P.

AU - Lancioni, Christina L.

AU - Bandsma, Robert H.J.

AU - Ahmed, Tahmeed

AU - Walson, Judd L.

AU - Berkley, James A.

AU - Lawley, Trevor D.

PY - 2026

Y1 - 2026

N2 - Bifidobacterium longum and B. infantis are pioneer colonizers of the neonatal gut and are widely used as probiotics to support infant growth, development, and disease resistance. However, commercial strains derived largely from high-income countries (HICs) may be suboptimal for infants in low- and middle-income countries (LMICs). We assembled a global genomic atlas of more than 4,000 genomes from 48 countries, increasing representation from LMICs by 12- to 17-fold. High-resolution phylogenomic and functional analyses support delineating B. longum and B. infantis as distinct species with divergent functions and epidemiological patterns. B. infantis dominates early-life microbiota in LMICs but is rarely detected in HICs. Natural B. infantis strains show extreme biogeographic stratification and predicted adaptations to local plant-glycan-rich diets and breast-milk-derived substrates, including urea and B vitamins. This genomic resource enables genome-guided selection of geographically matched strains to inform more effective probiotics and precision microbiome therapeutics for diverse infant populations.

AB - Bifidobacterium longum and B. infantis are pioneer colonizers of the neonatal gut and are widely used as probiotics to support infant growth, development, and disease resistance. However, commercial strains derived largely from high-income countries (HICs) may be suboptimal for infants in low- and middle-income countries (LMICs). We assembled a global genomic atlas of more than 4,000 genomes from 48 countries, increasing representation from LMICs by 12- to 17-fold. High-resolution phylogenomic and functional analyses support delineating B. longum and B. infantis as distinct species with divergent functions and epidemiological patterns. B. infantis dominates early-life microbiota in LMICs but is rarely detected in HICs. Natural B. infantis strains show extreme biogeographic stratification and predicted adaptations to local plant-glycan-rich diets and breast-milk-derived substrates, including urea and B vitamins. This genomic resource enables genome-guided selection of geographically matched strains to inform more effective probiotics and precision microbiome therapeutics for diverse infant populations.

KW - Bifidobacterium infantis

KW - Bifidobacterium longum

KW - bifidobacteria

KW - early life microbiome

KW - industrialization

KW - metagenomics

KW - microbial ecology

KW - phylogenomics

KW - probiotics

KW - strain-level variation

UR - https://www.scopus.com/pages/publications/105030500670

U2 - 10.1016/j.cell.2026.01.007

DO - 10.1016/j.cell.2026.01.007

M3 - Article

AN - SCOPUS:105030500670

SN - 0092-8674

JO - Cell

JF - Cell

ER -

Genomic atlas of Bifidobacterium infantis and B. longum informs infant probiotic design

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Keywords

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