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Can Peto's paradox be used as the null hypothesis to identify the role of evolution in natural resistance to cancer? A critical reviewThe bigger the better: determining nephron size in kidneyInfluence of neonatal hypothyroidism on hepatic gene expression and lipid metabolism in adulthoodRegulation of Long Bone Growth in Vertebrates; It Is Time to Catch UpA method for modeling growth of organs and transplants based on the general growth law: application to the liver in dogs and humansPostembryonic Nephrogenesis and Persistence of Six2-Expressing Nephron Progenitor Cells in the Reptilian KidneyGenetics of Rapid and Extreme Size Evolution in Island MiceThe Korean herbal formulation Yukmijihwangtang stimulates longitudinal bone growth in animal models.Primordial dwarfism: overview of clinical and genetic aspects.Quiescence: early evolutionary origins and universality do not imply uniformityEvidence That Up-Regulation of MicroRNA-29 Contributes to Postnatal Body Growth DecelerationEpiphyseal chondrocyte secondary ossification centers require thyroid hormone activation of Indian hedgehog and osterix signalingDisease severity in a mouse model of ataxia telangiectasia is modulated by the DNA damage checkpoint gene Hus1The real war on cancer: the evolutionary dynamics of cancer suppressionMitogenic signaling pathways in the liver of growth hormone (GH)-overexpressing mice during the growth periodOrganelle Size Scaling of the Budding Yeast Vacuole by Relative Growth and InheritanceEstimated in vivo postnatal surface growth patterns of the ovine main pulmonary artery and ascending aorta.Heterochronic Pellet Assay to Test Cell-cell Communication in the Mouse Retina.Mechanisms and pathways of growth failure in primordial dwarfism.Treatment of children and adolescents with idiopathic short stature.Toward a universal treatment for cancer: cell inflation assisted chemotherapy.Is metabolic rate a universal 'pacemaker' for biological processes?A retinoblastoma orthologue is required for the sensing of a chalone in Dictyostelium discoideum.Organ-Size Regulation in Mammals.Repeated removal of developing limb buds permanently reduces appendage size in the highly-regenerative axolotl.Medullary bone in fossils: function, evolution and significance in growth curve reconstructions of extinct vertebrates.Sarcopenia and piscines: the case for indeterminate-growing fish as unique genetic model organisms in aging and longevity research.Nutrition, infection and stunting: the roles of deficiencies of individual nutrients and foods, and of inflammation, as determinants of reduced linear growth of children.Bioelectric signaling regulates size in zebrafish fins.Post-natal growth of the gastrointestinal tract of the Siberian hamster: morphometric analysis.A comparative study of growth: different body weight trajectories in three species of the genus Eublepharis and their hybrids.Transcriptional analysis of liver from chickens with fast (meat bird), moderate (F1 layer x meat bird cross) and low (layer bird) growth potential.Human energy expenditure: advances in organ-tissue prediction models
P2860
Q26779417-09B5A626-B12C-434D-A1DA-99722564BDEDQ27026016-0B3F264C-D8ED-42FF-A412-E818604FE02BQ27302755-C136FD37-B01D-4700-B95A-D8E95C1928F0Q28083996-2037C958-FF53-477F-A19A-16300D935B93Q28539508-0DA67F14-B1FD-45AF-BECA-530C85419AABQ28603277-9B404544-B98F-4276-B1B4-C141B8F50269Q28607777-463FB463-37C5-4152-9E85-A7E59B256BC4Q33630039-DB85F8E8-F5D8-46F9-ABBC-CB0726DAA3C8Q34672718-E0846E45-9BCB-4832-9B32-43EB13B492B6Q35466820-7C1BECC8-8370-4D39-B2B5-582C059E8893Q35661315-AB7C8FDF-CD89-43F8-A707-67C5B8EDEDA7Q35805432-C6992AD8-CF1C-46F0-9D7C-BD1C685716ECQ36083139-E3B759A2-C778-4F26-8EE1-F9E2FD0B806BQ36595754-414D7017-8188-4102-AF27-5C693834381AQ36838387-B4CB77DE-FC62-4C66-B4E9-17DA44471725Q36892746-A5E9A706-28C3-4AD7-AF60-8BDA300886EBQ36995354-D6E42EB1-508C-43AE-8C54-4023DBE3B744Q37730605-44095162-C355-4982-AF27-D9035E2C53F7Q37943258-3BAEFE38-E69E-4FBF-9801-50AB590616DFQ38100967-BA8F7F07-4867-47A2-A713-6DBB42D1C654Q38155169-B3109D03-1944-4183-80C8-9EB57786DB1BQ38215131-BF3D595A-6265-4196-B294-4EB9F46733F1Q38319066-92763373-44A7-4E34-848E-DB112826F025Q38549724-1F3C9F69-95E7-4C4B-A6B9-972187A369C6Q38753547-169C9D68-8106-4008-B194-DD6AA8A10303Q39013051-8E9B5328-7349-4DC8-ABEC-A9AE83F81B8EQ39363249-3653B0F9-8D32-469E-91EB-F7EBC56DBBE3Q40362252-2AE12C05-CE76-4028-BDA5-3251AC19FE94Q41876070-7A3A74BD-A371-4F33-A52E-99A1EE1FF131Q44350181-CC2E8026-E5BC-4C75-8DB6-7FDC03EFFDA3Q49350785-797238C9-AF0C-4CA2-8FAF-57C88DCE4E7AQ52715018-3A1F3E86-BC40-4216-B0BF-CE70F910D4EFQ57165662-5E6503F9-4409-41FA-B2D1-1BCF7F5D0174
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Mechanisms limiting body growth in mammals
@ast
Mechanisms limiting body growth in mammals
@en
Mechanisms limiting body growth in mammals
@nl
type
label
Mechanisms limiting body growth in mammals
@ast
Mechanisms limiting body growth in mammals
@en
Mechanisms limiting body growth in mammals
@nl
prefLabel
Mechanisms limiting body growth in mammals
@ast
Mechanisms limiting body growth in mammals
@en
Mechanisms limiting body growth in mammals
@nl
P2860
P3181
P356
P1433
P1476
Mechanisms limiting body growth in mammals
@en
P2093
Jeffrey Baron
Julian C Lui
P2860
P304
P3181
P356
10.1210/ER.2011-0001
P407
P577
2011-06-01T00:00:00Z