Early development of the Neanderthal ribcage reveals a different body shape at birth compared to modern humans

García‐Martínez, Daniel; Bastir, Markus; Gómez‐Olivencia, Asier; Maureille, Bruno; Golovanova, Liubov V.; Doronichev, Vladimir B.; Akazawa, Takeru; Kondo, Osamu; Ishida, Hajime; Gascho, Dominic; Zollikofer, Christoph P. E.; León, Marcia Ponce de; Heuzé, Yann

doi:10.1126/sciadv.abb4377

Cited by 18 publications

(25 citation statements)

References 55 publications

(129 reference statements)

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“…Loss-of-function mutations in the gene have been found in patients with cleidocranial dysplasia, an autosomal dominant disorder clinically character-4 ized by short stature, incomplete and delayed closure of fontanelles, frontal bossing, hypoplasia of clavicles or bell shaped thorax [35]. As previously highlighted by [45,46], some of the anatomical structures affected by RUNX2 dysfunction are known to differ between our species and the Neanderthals: the closure of fontanelles may be delayed in Homo sapiens in light of the globularization phase that takes place after birth and only attributed to our species [30,[47][48][49], or the wider lower thorax in a characteristically bell shape present in the Neanderthals [2].…”

Section: Discussionmentioning

confidence: 87%

“…Neanderthals are known to have an overall higher bone density, probably coupled with higher muscle mass relative to Homo sapiens [1]. Different developmental trajectories [2] lead to clear differences in structures like the lower thorax [3], the 1 lumbo-pelvic complex [3,4], and in general give rise to relatively large limb length and a shorter stature [5].…”

Section: Introductionmentioning

confidence: 99%

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Human-derived alleles inSOSTandRUNX23′UTRs cause differential regulation in a bone cell-line model

Moriano

Martínez‐Gil

Andirkó

et al. 2021

Preprint

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The inquiry into the phenotypic features that set apart human species, such as a light, gracile skeleton and a rounded skull characteristic of Homo sapiens, can now benefit from the examination of ancient genomes. These have added a new layer of analysis allowing the identification of genetic differences between species like ours and our closest extinct relatives. Most of these genetic differences are non-coding changes with unknown functional consequences, and dissecting their putative regulatory effect remains challenging. Here we focus on the three prime untranslated regions (3’UTR), known to play a critical role in messenger RNA regulation and a plausible locus for divergent regulation between Homo species. We report a set of genes with derived 3’UTR changes in either the Homo sapiens or the Neanderthal/Denisovan lineages and experimentally evaluate the impact of 3’UTR variants in four genes: E2F6, GLI3, RUNX2 and SOST. We performed a luciferase reporter assay in a bone cell-line model and found a statistically significant difference for the 3’UTR variants of SOST (Homo sapiens-derived) and RUNX2 (Neanderthal/Denisovan-derived). The differential expression caused by these variants in our experimental model points to species differences in bone mineral density. Thus, this study adds insights into the functional effects of regulatory variants that emerged in recent human evolution.

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Section: Discussionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Human-derived alleles inSOSTandRUNX23′UTRs cause differential regulation in a bone cell-line model

Moriano

Martínez‐Gil

Andirkó

et al. 2021

Preprint

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“…Regarding scapular development (changes in shape with age), previous research suggested that postnatal ontogenetic development only accentuates the features already present prenatally or at an early postnatal stage 28 , 30 , 66 . However, it is interesting to note here that the scapular development of chimpanzees and humans is convergent, in that juvenile human and chimpanzee morphology is more divergent relative to that seen in older individuals.…”

Section: Discussionmentioning

confidence: 99%

“…From an evolutionary point of view, the study of developmental changes that occurred during prenatal and postnatal ontogeny could provide important information of phylogenetic interest 19 , 24 , 29 , 30 . Adult morphologies can vary between species because of (1) differences in the shape of the anatomical element at the moment of birth that is caused by differences in the prenatal ontogenetic trajectories; (2) differences in the shape of the anatomical element that arise after birth and are caused by differences in the postnatal ontogenetic trajectories; and (3) differences in the magnitude of the ontogenetic change after birth 25 .…”

Section: Introductionmentioning

confidence: 99%

Evolutionary development of the Homo antecessor scapulae (Gran Dolina site, Atapuerca) suggests a modern-like development for Lower Pleistocene Homo

García‐Martínez

Green

Castro

2021

Sci Rep

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Two well-preserved, subadult 800 ky scapulae from Gran Dolina belonging to Homo antecessor, provide a unique opportunity to investigate the ontogeny of shoulder morphology in Lower Pleistocene humans. We compared the H. antecessor scapulae with a sample of 98 P. troglodytes and 108 H. sapiens representatives covering seven growth stages, as well as with the DIK-1-1 (Dikika; Australopithecus afarensis), KNM-WT 15000 (Nariokotome; H. ergaster), and MH2 (Malapa; A. sediba) specimens. We quantified 15 landmarks on each scapula and performed geometric morphometric analyses. H. sapiens scapulae are mediolaterally broader with laterally oriented glenoid fossae relative to Pan and Dikika shoulder blades. Accordingly, H. antecessor scapulae shared more morphological affinities with modern humans, KNM-WT 15000, and even MH2. Both H. antecessor and modern Homo showed significantly more positive scapular growth trajectories than Pan (slopes: P. troglodytes = 0.0012; H. sapiens = 0.0018; H. antecessor = 0.0020). Similarities in ontogenetic trajectories between the H. antecessor and modern human data suggest that Lower Pleistocene hominin scapular development was already modern human-like. At the same time, several morphological features distinguish H. antecessor scapulae from modern humans along the entire trajectory. Future studies should include additional Australopithecus specimens for further comparative assessment of scapular growth trends.

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“…Este hecho repercute directamente en el tamaño de dientes e inserciones musculares alojadas en la mandíbula de estos individuos, siendo mucho más voluminosos en la zona medio facial que la especie Homo sapiens. Precisamente esta curiosa morfología facial es la que, según algunos estudios, habría permitido una gran adaptación al frío y una alta demanda energética (Azevedo et al, 2017;Wroe et al, 2018;García-Martínez et al, 2020). Según algunos estudios, se ha podido comprobar que los individuos neandertales poseerían una mayor agudeza visual con respecto a Homo sapiens (García-Tabernero et al, 2018), todo ello a partir del análisis de la superficie endocraneal del occipital de los primeros, que muestra diferencias significativas con estos últimos.…”

Section: Las Morfologías Dentarias En Homo Sapiensunclassified

Aproximación y comparativa en el estudio dental de diversas poblaciones prehistóricas

León-Cristóbal

2021

Cuadernos de Arqueología

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El presente trabajo busca mostrar, en primer lugar, las características morfológicas dentales de las especies Homo neanderthalensis, Homo sapiens, denisovanos y Homo floresiensis. A partir de ello, el segundo objetivo principal es lograr un análisis comparativo de dichas morfologías entre las especies Homo sapiens y Homo neanderthalensis. A través de la antropología dental, el hallazgo de restos dentales en los yacimientos arqueológicos ha supuesto y supone un notable aumento de la información extraíble de estas poblaciones humanas. Gracias a ella, se ha podido extraer evidencias acerca de la dieta, de enfermedades y patologías bucales, de la evolución de la mandíbula y por consiguiente del tamaño de la parte craneoencefálica, o incluso de las dimensiones corporales de los individuos. La genética ha mostrado que algunas poblaciones actuales comparten cier tos genes antiguos, presentes en el ADN, con especies como los denisovanos, especialmente en el sureste asiático y Oceanía. Se tratará asimismo el fenómeno de la hibridación entre especies, un hecho que parece cada vez más evidente entre especies y que influyó en gran medida en los rasgos morfológicos de estos grupos humanos. Por último, el descubrimiento de especies como Homo floresiensis plantea que la evolución tomó caminos muy dispares, todos ellos reflejados en la dentición de estos homininos y, demostrando, por tanto, que queda todavía mucho por conocer en evolución humana.

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Early development of the Neanderthal ribcage reveals a different body shape at birth compared to modern humans

Cited by 18 publications

References 55 publications

Human-derived alleles inSOSTandRUNX23′UTRs cause differential regulation in a bone cell-line model

Human-derived alleles inSOSTandRUNX23′UTRs cause differential regulation in a bone cell-line model

Evolutionary development of the Homo antecessor scapulae (Gran Dolina site, Atapuerca) suggests a modern-like development for Lower Pleistocene Homo

Aproximación y comparativa en el estudio dental de diversas poblaciones prehistóricas

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