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Ecological physiology of diet and digestive systems

The morphological and functional design of gastrointestinal tracts of many vertebrates and invertebrates can be explained largely by the interaction between diet chemical constituents and principles of economic design, both of which are embodied in chemical reactor models of gut function. Natural se... Full description

Journal Title: Annual review of physiology 2011, Vol.73 (1), p.69-93
Main Author: Karasov, William H
Other Authors: Martínez del Rio, Carlos , Caviedes-Vidal, Enrique
Format: Electronic Article Electronic Article
Language: English
Subjects:
Animals
Birds - genetics
Birds - physiology
Carrier Proteins - genetics
Carrier Proteins - physiology
Diet
Digestion
Digestive system
Digestive System - metabolism
Digestive System - microbiology
Digestive System Physiological Phenomena
Enzymes
Fishes - genetics
Fishes - physiology
Gene Dosage - physiology
Gene expression
Genetic aspects
Genetic polymorphisms
Genomes
Genotype & phenotype
Humans
Hydrolases
Hydrolases - genetics
Hydrolases - physiology
Mice
Morphology
Physiological aspects
Physiology
Polymorphism
Polymorphism, Single Nucleotide
Primates - genetics
Primates - microbiology
Primates - physiology
Protein Processing, Post-Translational - physiology
Rats
Selection, Genetic - physiology
Transcription, Genetic - physiology
Quelle: Alma/SFX Local Collection
Publisher: United States: Annual Reviews, Inc
ID: ISSN: 0066-4278
Link: https://www.ncbi.nlm.nih.gov/pubmed/21314432
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recordid: cdi_proquest_miscellaneous_851748876
title: Ecological physiology of diet and digestive systems
format: Article
creator:
  • Karasov, William H
  • Martínez del Rio, Carlos
  • Caviedes-Vidal, Enrique
subjects:
  • Animals
  • Birds - genetics
  • Birds - physiology
  • Carrier Proteins - genetics
  • Carrier Proteins - physiology
  • Diet
  • Digestion
  • Digestive system
  • Digestive System - metabolism
  • Digestive System - microbiology
  • Digestive System Physiological Phenomena
  • Enzymes
  • Fishes - genetics
  • Fishes - physiology
  • Gene Dosage - physiology
  • Gene expression
  • Genetic aspects
  • Genetic polymorphisms
  • Genomes
  • Genotype & phenotype
  • Humans
  • Hydrolases
  • Hydrolases - genetics
  • Hydrolases - physiology
  • Mice
  • Morphology
  • Physiological aspects
  • Physiology
  • Polymorphism
  • Polymorphism, Single Nucleotide
  • Primates - genetics
  • Primates - microbiology
  • Primates - physiology
  • Protein Processing, Post-Translational - physiology
  • Rats
  • Selection, Genetic - physiology
  • Transcription, Genetic - physiology
ispartof: Annual review of physiology, 2011, Vol.73 (1), p.69-93
description: The morphological and functional design of gastrointestinal tracts of many vertebrates and invertebrates can be explained largely by the interaction between diet chemical constituents and principles of economic design, both of which are embodied in chemical reactor models of gut function. Natural selection seems to have led to the expression of digestive features that approximately match digestive capacities with dietary loads while exhibiting relatively modest excess. Mechanisms explaining differences in hydrolase activity between populations and species include gene copy number variations and single-nucleotide polymorphisms. In many animals, both transcriptional adjustment and posttranscriptional adjustment mediate phenotypic flexibility in the expression of intestinal hydrolases and transporters in response to dietary signals. Digestive performance of animals depends also on their gastrointestinal microbiome. The microbiome seems to be characterized by large beta diversity among hosts and by a common core metagenome and seems to differ flexibly among animals with different diets.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 0066-4278
fulltext: fulltext
issn:
  • 0066-4278
  • 1545-1585
url: Link


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creatorcontribKarasov, William H ; Martínez del Rio, Carlos ; Caviedes-Vidal, Enrique
descriptionThe morphological and functional design of gastrointestinal tracts of many vertebrates and invertebrates can be explained largely by the interaction between diet chemical constituents and principles of economic design, both of which are embodied in chemical reactor models of gut function. Natural selection seems to have led to the expression of digestive features that approximately match digestive capacities with dietary loads while exhibiting relatively modest excess. Mechanisms explaining differences in hydrolase activity between populations and species include gene copy number variations and single-nucleotide polymorphisms. In many animals, both transcriptional adjustment and posttranscriptional adjustment mediate phenotypic flexibility in the expression of intestinal hydrolases and transporters in response to dietary signals. Digestive performance of animals depends also on their gastrointestinal microbiome. The microbiome seems to be characterized by large beta diversity among hosts and by a common core metagenome and seems to differ flexibly among animals with different diets.
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1EISSN: 1545-1585
2DOI: 10.1146/annurev-physiol-012110-142152
3PMID: 21314432
languageeng
publisherUnited States: Annual Reviews, Inc
subjectAnimals ; Birds - genetics ; Birds - physiology ; Carrier Proteins - genetics ; Carrier Proteins - physiology ; Diet ; Digestion ; Digestive system ; Digestive System - metabolism ; Digestive System - microbiology ; Digestive System Physiological Phenomena ; Enzymes ; Fishes - genetics ; Fishes - physiology ; Gene Dosage - physiology ; Gene expression ; Genetic aspects ; Genetic polymorphisms ; Genomes ; Genotype & phenotype ; Humans ; Hydrolases ; Hydrolases - genetics ; Hydrolases - physiology ; Mice ; Morphology ; Physiological aspects ; Physiology ; Polymorphism ; Polymorphism, Single Nucleotide ; Primates - genetics ; Primates - microbiology ; Primates - physiology ; Protein Processing, Post-Translational - physiology ; Rats ; Selection, Genetic - physiology ; Transcription, Genetic - physiology
ispartofAnnual review of physiology, 2011, Vol.73 (1), p.69-93
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descriptionThe morphological and functional design of gastrointestinal tracts of many vertebrates and invertebrates can be explained largely by the interaction between diet chemical constituents and principles of economic design, both of which are embodied in chemical reactor models of gut function. Natural selection seems to have led to the expression of digestive features that approximately match digestive capacities with dietary loads while exhibiting relatively modest excess. Mechanisms explaining differences in hydrolase activity between populations and species include gene copy number variations and single-nucleotide polymorphisms. In many animals, both transcriptional adjustment and posttranscriptional adjustment mediate phenotypic flexibility in the expression of intestinal hydrolases and transporters in response to dietary signals. Digestive performance of animals depends also on their gastrointestinal microbiome. The microbiome seems to be characterized by large beta diversity among hosts and by a common core metagenome and seems to differ flexibly among animals with different diets.
subject
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1Birds - genetics
2Birds - physiology
3Carrier Proteins - genetics
4Carrier Proteins - physiology
5Diet
6Digestion
7Digestive system
8Digestive System - metabolism
9Digestive System - microbiology
10Digestive System Physiological Phenomena
11Enzymes
12Fishes - genetics
13Fishes - physiology
14Gene Dosage - physiology
15Gene expression
16Genetic aspects
17Genetic polymorphisms
18Genomes
19Genotype & phenotype
20Humans
21Hydrolases
22Hydrolases - genetics
23Hydrolases - physiology
24Mice
25Morphology
26Physiological aspects
27Physiology
28Polymorphism
29Polymorphism, Single Nucleotide
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31Primates - microbiology
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35Selection, Genetic - physiology
36Transcription, Genetic - physiology
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8Digestive System - metabolism
9Digestive System - microbiology
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13Fishes - physiology
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21Hydrolases
22Hydrolases - genetics
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25Morphology
26Physiological aspects
27Physiology
28Polymorphism
29Polymorphism, Single Nucleotide
30Primates - genetics
31Primates - microbiology
32Primates - physiology
33Protein Processing, Post-Translational - physiology
34Rats
35Selection, Genetic - physiology
36Transcription, Genetic - physiology
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abstractThe morphological and functional design of gastrointestinal tracts of many vertebrates and invertebrates can be explained largely by the interaction between diet chemical constituents and principles of economic design, both of which are embodied in chemical reactor models of gut function. Natural selection seems to have led to the expression of digestive features that approximately match digestive capacities with dietary loads while exhibiting relatively modest excess. Mechanisms explaining differences in hydrolase activity between populations and species include gene copy number variations and single-nucleotide polymorphisms. In many animals, both transcriptional adjustment and posttranscriptional adjustment mediate phenotypic flexibility in the expression of intestinal hydrolases and transporters in response to dietary signals. Digestive performance of animals depends also on their gastrointestinal microbiome. The microbiome seems to be characterized by large beta diversity among hosts and by a common core metagenome and seems to differ flexibly among animals with different diets.
copUnited States
pubAnnual Reviews, Inc
pmid21314432
doi10.1146/annurev-physiol-012110-142152