Alida M Bailleul, Wenxia Zheng, John R Horner, Brian K Hall, Casey M Holliday, Mary H Schweitzer
National Science Review, Volume 7, Issue 4, April 2020, Pages 815–822, https://doi.org/10.1093/nsr/nwz206
Published: 12 January 2020
Ground section of Hypacrosaurus (MOR 548) supraoccipital shows exceptional histological preservation of calcified cartilage.
Abstract
A histological ground-section from a duck-billed dinosaur nestling (Hypacrosaurus stebingeri) revealed microstructures morphologically consistent with nuclei and chromosomes in cells within calcified cartilage. We hypothesized that this exceptional cellular preservation extended to the molecular level and had molecular features in common with extant avian cartilage. Histochemical and immunological evidence supports in situ preservation of extracellular matrix components found in extant cartilage, including glycosaminoglycans and collagen type II. Furthermore, isolated Hypacrosaurus chondrocytes react positively with two DNA intercalating stains. Specific DNA staining is only observed inside the isolated cells, suggesting endogenous nuclear material survived fossilization. Our data support the hypothesis that calcified cartilage is preserved at the molecular level in this Mesozoic material, and suggest that remnants of once-living chondrocytes, including their DNA, may preserve for millions of years.
cartilage, dinosaur, nuclei, chromosomes, collagen II, DNA markers
Issue Section: MOLECULAR BIOLOGY & GENETICS
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