| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1997Natur.390..137H |
| P6179 | Dimensions Publication ID | 1023261521 |
| P356 | DOI | 10.1038/36505 |
| P698 | PubMed publication ID | 9367151 |
| P5875 | ResearchGate publication ID | 13863027 |
| P2093 | author name string | Wang Y | |
| Li C | |||
| Luo Z | |||
| Hu Y | |||
| P2860 | cites work | The origin of egg-laying mammals | Q58969645 |
| Monotreme affinities and low-frequency hearing suggested by multituberculate ear | Q59037708 | ||
| The movement of the shoulder in claviculate and aclaviculate mammals | Q68796861 | ||
| Cretaceous mammals of southern Utah. III. Therian mammals from the Turonian (early Late Cretaceous) | Q99654656 | ||
| Dates and rates in ancient lakes: 40Ar–39Ar evidence for an Early Cretaceous age for the Jehol Group, northeast China | Q99916229 | ||
| Early Adaptive Radiation of Birds: Evidence from Fossils from Northeastern China | Q28294993 | ||
| Transformation of the quadrate (incus) through the transition from non-mammalian cynodonts to mammals | Q29035633 | ||
| Definition, diagnosis, and origin of Mammalia | Q29039932 | ||
| The postcranial skeletons of the Triassic mammals Eozostrodon, Megazostrodon and Erythrotherium | Q38591932 | ||
| The functional anatomy and evolution of the mammalian humero-ulnar articulation | Q47711236 | ||
| Cretaceous multituberculate skeleton and the early evolution of the mammalian shoulder girdle | Q54801074 | ||
| A beaked bird from the Jurassic of China | Q55881003 | ||
| The relationships of mammals | Q56225072 | ||
| The skull of Morganucodon | Q56784983 | ||
| P433 | issue | 6656 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | People's Republic of China | Q148 |
| P304 | page(s) | 137-142 | |
| P577 | publication date | 1997-11-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | A new symmetrodont mammal from China and its implications for mammalian evolution | |
| P478 | volume | 390 |
| Q28140717 | A Chinese triconodont mammal and mosaic evolution of the mammalian skeleton |
| Q34483887 | A Cretaceous symmetrodont therian with some monotreme-like postcranial features |
| Q28278835 | A Mesozoic gliding mammal from northeastern China |
| Q54669352 | A Mesozoic species of Anotylus (Coleoptera, Staphylinidae, Oxytelinae) from Liaoning, China, with the earliest evidence of sexual dimorphism in rove beetles |
| Q47550770 | A diverse mammal-dominated, footprint assemblage from wetland deposits in the Lower Cretaceous of Maryland |
| Q99670042 | A eutherian mammal from the Early Cretaceous of Russia and biostratigraphy of the Asian Early Cretaceous vertebrate assemblages |
| Q29039656 | A multivariate approach to infer locomotor modes in Mesozoic mammals |
| Q22122235 | A new eutriconodont mammal and evolutionary development in early mammals |
| Q54677266 | A new phylogeny for basal Trechnotheria and Cladotheria and affinities of South American endemic Late Cretaceous mammals. |
| Q57277206 | A new spalacolestine mammal from the Early Cretaceous Jehol Biota and implications for the morphology, phylogeny, and palaeobiology of Laurasian ‘symmetrodontans’ |
| Q104436060 | A new symmetrodont from the Early Cretaceous of England |
| Q28602319 | A new symmetrodont mammal (Trechnotheria: Zhangheotheriidae) from the Early Cretaceous of China and trechnotherian character evolution |
| Q30049387 | A review of vertebrate faunas from the Gyeongsang Supergroup (Cretaceous) in South Korea |
| Q28210593 | An exceptionally preserved Lower Cretaceous ecosystem |
| Q55879725 | Anatomy of Sinosauropteryx prima from Liaoning, northeastern China |
| Q47722329 | At the roots of the mammalian family tree |
| Q48229332 | Cloning of IgE from the echidna (Tachyglossus aculeatus) and a comparative analysis of epsilon chains from all three extant mammalian lineages |
| Q24644629 | Confirming the phylogeny of mammals by use of large comparative sequence data sets |
| Q53996928 | Craniofacial Morphology ofVintana Sertichi(Mammalia, Gondwanatheria) from the Late Cretaceous of Madagascar |
| Q56680944 | Cretaceous age for the feathered dinosaurs of Liaoning, China |
| Q91497260 | Cretaceous fossil reveals a new pattern in mammalian middle ear evolution |
| Q45985856 | Deadly hairs, lethal feathers--convergent evolution of poisonous integument in mammals and birds. |
| Q28187963 | Dual origin of tribosphenic mammals |
| Q104117016 | Earliest Asian discoglossid frog from western Liaoning |
| Q32067133 | Early mammals: teeth, jaws and finally a skeleton! |
| Q28727469 | Evolution and development of dual ingestion systems in mammals: notes on a new thesis and its clinical implications |
| Q46230193 | Evolution of the biomechanical material properties of the femur |
| Q47326390 | Evolutionary consequences of dating the Yixian Formation |
| Q54670114 | Extinct and extant rove beetles meet in the matrix: Early Cretaceous fossils shed light on the evolution of a hyperdiverse insect lineage (Coleoptera: Staphylinidae: Staphylininae) |
| Q29030044 | First Amphilestid from South America: A Molariform from the Jurassic Cañadón Asfalto Formation, Patagonia, Argentina |
| Q27321321 | Forelimb Kinematics of Rats Using XROMM, with Implications for Small Eutherians and Their Fossil Relatives |
| Q28744628 | Fossil evidence on evolution of inner ear cochlea in Jurassic mammals |
| Q90911656 | How the earliest mammals thrived alongside dinosaurs |
| Q36706104 | I kappa B kinase alpha (IKKα) activity is required for functional maturation of dendritic cells and acquired immunity to infection |
| Q34462535 | Mammalian evolution. Evolutionary development in basal mammaliaforms as revealed by a docodontan |
| Q47448018 | Mammalian evolution: upwards and onwards |
| Q29397874 | Mesozoic mammals of China: implications for phylogeny and early evolution of mammals |
| Q83678394 | Metabolic profile of the perivertebral muscles in small therian mammals: implications for the evolution of the mammalian trunk musculature |
| Q34540488 | Neural crest does not contribute to the neck and shoulder in the axolotl (Ambystoma mexicanum). |
| Q38403966 | New evidence suggests pyroclastic flows are responsible for the remarkable preservation of the Jehol biota |
| Q54670927 | New fossil mantidflies (Insecta: Neuroptera: Mantispidae) from the Mesozoic of north-eastern China |
| Q28765211 | New information about the skull and dentary of the Miocene platypus Obdurodon dicksoni, and a discussion of ornithorhynchid relationships |
| Q29542092 | New materials ofArgentoconodon fariasorum(Mammaliaformes, Triconodontidae) from the Jurassic of Argentina and its bearing on triconodont phylogeny |
| Q79098442 | Ontogenesis of the scapula in marsupial mammals, with special emphasis on perinatal stages of didelphids and remarks on the origin of the therian scapula |
| Q28752331 | Petrosal anatomy and inner ear structures of the Late Jurassic Henkelotherium (Mammalia, Cladotheria, Dryolestoidea): insight into the early evolution of the ear region in cladotherian mammals |
| Q92616899 | Petrosal morphology and cochlear function in Mesozoic stem therians |
| Q56567766 | Postcranial Skeleton of the Cretaceous Mammal Akidolestes cifellii and Its Locomotor Adaptations |
| Q33239161 | Postnatal allometry of the skeleton in Tupaia glis (Scandentia: Tupaiidae) and Galea musteloides (Rodentia: Caviidae)--a test of the three-segment limb hypothesis |
| Q30885893 | Review of the monotreme fossil record and comparison of palaeontological and molecular data |
| Q57277211 | Spalacotheriid ‘symmetrodonts’ from the Early Cretaceous of Spain |
| Q29302392 | The Kuehneotheriidae (Mammaliaformes) from Saint-Nicolas-de-Port (Upper Triassic, France): a Systematic Review |
| Q28215835 | The earliest known eutherian mammal |
| Q47384375 | The evolution of tribospheny and the antiquity of mammalian clades |
| Q29041195 | The mammal fauna in the Early Cretaceous Jehol Biota: implications for diversity and biology of Mesozoic mammals |
| Q28204606 | The mammary gland and its origin during synapsid evolution |
| Q54546760 | The oldest fossil species of the rove beetle subfamily Oxyporinae (Coleoptera: Staphylinidae) from the Early Cretaceous (Yixian Formation, China) and its phylogenetic significance |
| Q24676990 | The platypus is not a rodent: DNA hybridization, amniote phylogeny and the palimpsest theory |
| Q64013379 | The postcranial anatomy of Brasilodon quadrangularis and the acquisition of mammaliaform traits among non-mammaliaform cynodonts |
| Q55919812 | The postcranial skeleton of Yanoconodon allini from the Early Cretaceous of Hebei, China, and its implications for locomotor adaptation in eutriconodontan mammals |
| Q56918936 | The remarkable fossils from the Early Cretaceous Jehol Biota of China and how they have changed our knowledge of Mesozoic life |
| Q44524056 | The root of the mammalian tree inferred from whole mitochondrial genomes |
| Q56609165 | The vertebrates of the Jurassic Daohugou Biota of northeastern China |
| Q30850502 | Three new Jurassic euharamiyidan species reinforce early divergence of mammals |
| Q56554112 | Two new species ofGobiconodon(Mammalia, Eutriconodonta, Gobiconodontidae) from the Lower Cretaceous Shahai and Fuxin formations, northeastern China |
Search more.