Figure 17.6 Comparison of a brain from an infant with ...
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1 Figure 17.6 Comparison of a brain from an infant with fetal alcohol syndrome (FAS) with a brain from a normal infant Figure 18.1 Developmental plasticity in insects
Transcript of Figure 17.6 Comparison of a brain from an infant with ...
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Figure 17.6 Comparison of a brain from an infant with fetal alcohol syndrome (FAS) with a brain from a normal infant
Figure 18.1 Developmental plasticity in insects
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DOUGLAS J. EMLEN (2000). Integrating Development with Evolution: A Case Study with Beetle Horns. BioScience 50; 403-418
DOUGLAS J. EMLEN (2000). Integrating Development with Evolution: A Case Study with Beetle Horns. BioScience 50; 403-418
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DOUGLAS J. EMLEN (2000). Integrating Development with Evolution: A Case Study with Beetle Horns. BioScience 50; 403-418
DOUGLAS J. EMLEN (2000). Integrating Development with Evolution: A Case Study with Beetle Horns. BioScience 50; 403-418
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Figure 18.10 Major pathways of the mammalian visual system
Figure 18.11 Experience alters neural connections
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Figure 18.21 Gut microbes are necessary for mammalian capillary development
abiotic Normal gut flora Bacteriodes thetaiotaomicron
De Hongerwinter
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Rudolf Jaenisch & Adrian Bird (2003). Epigenetic regulation of gene expression: how the genome integrates intrinsic and environmental signals. Nature Genetics 33, 245 - 254
Figure 2.3 Nucleosome and chromatin structure (Part 2)
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Figure 2.3 Nucleosome and chromatin structure (Part 3)
Robert A Waterland and Cutberto Garza (1999). Potential mechanisms of metabolic imprinting that lead to chronic disease. Am J Clin Nutr 69:179–97
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Figure 2.18 DNA methylation can block transcription by preventing transcription factors from binding to the enhancer region
