i. motivation - eaap annual meetings · 2021. 1. 14. · .02 i. motivation - the ruminant holobiont...
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I. Motivation
- The ruminant holobiont
II. Description of project
- Phenotyping and sampling
- Initial results:
· Structural and functional analysis
· Microbial biomarkers linked to CH4y (CH4/DMI)
· Microbial network analysis
III. Future directions
Outline
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Rumen symbionts
PROVIDE
• EnergyVFA can provide up to 80% of the energy needs
• Proteinmicrobes convert NPN into high quality protein
• Vitaminssynthesis of B-complex and K vitamins
• ….
PRODUCE
• Toxic products
• Methane~14.5% of total global GHG emissions
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GreenFeed
Calan gate syst
Sep
Nov
n=65
Phenotyping and sampling
Jan
Mar
n=68
Methane emission
Body weight
Milk production
Digestibility
Residual feed intake
Average daily gain
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From raw sequencing to OTU- OTU picking
- Taxonomic assignment
- Phylogenetic treeSchloss et al., 2009 Quast et al., 2013
Ruminal ecosystem
- Diversity index (alpha, beta, richness)
- Ruminotype like-cluster
- Functional analysis (whole-metagenome)
- Microbial network inference Ramayo-Caldas et al., 2016Arumugam et al., 2011
Multivariate Analysis
- sPLS-DA ( X=OTU, Y= CH4y classification)
- sPLS-DA ( X=OTU, Y= Ruminotype cluster)
- sPLS (regression mode: X=OTU, Y= CH4yRohart et al., 2017 Dray et al., 2007
ade4
Analytic workflow
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Analytic workflow
From raw sequencing to OTU- OTU picking
- Taxonomic assignment
- Phylogenetic treeSchloss et al., 2009 Quast et al., 2013
Ruminal ecosystem
- Diversity index (alpha, beta, richness)
- Ruminotype like-cluster
- Functional analysis
- Microbial network inference Ramayo-Caldas et al., 2016Arumugam et al., 2011
Multivariate Analysis
- sPLS-DA ( X=OTU, Y= CH4y classification)
- sPLS-DA ( X=OTU, Y= Ruminotype cluster)
- sPLS (regression mode: X=OTU, Y= CH4yRohart et al., 2017 Dray et al., 2007
ade4
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Arumugam et al, 2011
Danielsson et al. 2017
Kittelmann et al. 2014
Wang et al. 2015
Moeller et al. 2012
Mach et al. 2014
Ramayo-Caldas et al. 2018
Structure of bacterial gut ecosystem
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19 samples R316 samples R2
30 samples R1
Structure of ruminal ecosystem
Cluster stabilityClusterwise Jaccard 100 bootstrap
K2 = (0.61, 0.44)
K3= (0.63, 0.64, 0.63)
most stable solution at K=3
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Ruminotype-like cluster is linked to CH4y
p=0.03 p=0.04
p=0.96
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Taxonomic composition
Linked to Low CH4y
Wallace et al. (2015)
Danielsson et al. (2017)
SuccinivibrionaceaeRuminococcaceae
Linked to High CH4y
Kittelmann et al. (2014)
Danielsson et al. (2017)
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MCR: catalyzes the CH4 production
Functional analysis
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ruminotypes assignation
(X=OTU, Y= R1, R2, R3)
regression model
(X=OTU, Y=CH4y)
Ch4y classification
(X=OTU, Y= HCh4y, LCh4y, IntCh4y)
sPLS-DA
sPLS
Common OTUs?
Multivariate analysis
OTU jointly associated
with CH4y and sample
classification
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Common OTUs
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Marginal posterior distribution of CH4y microbiability
(0.52 ± 0.15)
Microbial mixed modelBGLR (de los Campos and Perez, 2013)
(0.45 ± 0.19)
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1,198 nodes (OTUs)&
19,072 edges (interactions)
Whole network
SPCIT (Ramayo-Caldas et al. 2016)
30% (384 OTUs)
89% (25/28)
Cluster analyses
five modules
Microbial Network
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Conclusions
- The structure of the ruminal bacterial community is linked
to CH4y emission.
- OTUs associated with CH4y emission predominantly belong
to hydrogen-producing genera.
- These OTUs explained an important proportion of the CH4y
phenotypic variance in Holstein and Charolaise breeds.
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Microbiota MicrobiomeDeeper analysis of rumen microbial community
MGS and functional analysis
Feed efficiencyMethane emission
16S and 18S rRNA(buccal, rumen, gut)
Whole-metagenome
Future directionsHost genomics
50K Illumina Chip
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Gilles Renand
Diego Morgavi
Nuria Mach
Jordi Estellé
Jöel Doré
Andrea Rau
Aurelien Bernard
Milka Popova
Rafael Muñoz-Tamayo
Emmanuelle Rebours
Miguel Perez-Enciso
Laura Zingareti
Pau Bellot
Nature special: Interdisciplinarity 16 Sept 2015
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Thank you for your attention
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