2017
DOI: 10.1002/dvg.23079
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Timing the developmental origins of mammalian limb diversity

Abstract: Mammals have highly diverse limbs that have contributed to their occupation of almost every niche. Researchers have long been investigating the development of these diverse limbs, with the goals of identifying developmental processes and potential biases that shape mammalian limb diversity. To date, researchers have used techniques ranging from the genomic to the anatomic to investigate the developmental processes shaping the limb morphology of mammals from five orders (Marsupialia, Chiroptera, Rodentia, Cetar… Show more

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Cited by 21 publications
(25 citation statements)
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References 119 publications
(202 reference statements)
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“…As organs differentiate and mature, active genes have more restricted spatiotemporal profiles, which may reduce functional constraints and facilitate evolutionary change. The increase in species divergence as development progresses has also been described for mammalian limb development 35 and whole embryos 45 and we suggest it occurs in developmental systems where pleiotropy decreases as a function of time.…”
Section: Discussionsupporting
confidence: 77%
“…As organs differentiate and mature, active genes have more restricted spatiotemporal profiles, which may reduce functional constraints and facilitate evolutionary change. The increase in species divergence as development progresses has also been described for mammalian limb development 35 and whole embryos 45 and we suggest it occurs in developmental systems where pleiotropy decreases as a function of time.…”
Section: Discussionsupporting
confidence: 77%
“…Recent studies have characterized embryonic FL and HL bud transcriptomes in several mammalian species, including mouse, opossum, pig, and bat (Taher et al, 2011, Sears et al, 2018, Wang et al, 2018, Gyurjan et al, 2011, Eckalbar et al, 2016, Shou et al, 2005. However, similar analyses in other vertebrate classes are sparse, precluding broader comparative analyses of limb identity networks.…”
Section: Evidence For Conservation Of Limb Identity Programs Among Ammentioning
confidence: 99%
“…A substantial body of literature in evolutionary developmental biology has focused on the question of what developmental processes are involved in regulating the diversity in the number of digits in tetrapods, with several recent major reviews on this subject [8][9][10]. Here, all published observations on early developmental stages in tetrapods with functional digits were re-examined to clarify the number of digits present at the initiation stages of autopod development.…”
Section: Developmental Stabilization Of Tetrapod Digit Numbermentioning
confidence: 99%
“…In later stages of digit development in amniotes (post-patterning), numerous mechanisms are employed to diversify digit features: growth can be arrested, elements fused or tissue carved away by apoptosis, combined with allometric changes among digits and/or positional changes of proximal elements (e.g. [7][8][9][10]17,[24][25][26][27]. Thus, while digit reduction is a 'repeated theme in tetrapod evolution,' the number of digits at initiation is remarkably conserved and evolutionary changes in later digit development explain most of the diversity of digit patterns [10,28].…”
Section: Developmental Stabilization Of Tetrapod Digit Numbermentioning
confidence: 99%
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