Your search keyword '"Horner J"' showing total 12 results

1. Correction: A comparative embryological study of two ornithischian dinosaurs

Author

Horner, J. R., primary and Weishampel, D. B., additional

Published

1996

2. Use of Adsorption Columns in the Analysis of Soap and Detergent-stabilized Emulsions

Author

HARKER, R. P., primary, HEAPS, J. M., additional, and HORNER, J. L., additional

Published

1954

3. Emulsion Reactions: the Hydrolysis of Wool Wax.

Author

HORNER, J. L. and TRUTER, E. V.

Published

1950

4. Publisher Correction: A planet within the debris disk around the pre-main-sequence star AU Microscopii.

Author

Plavchan P, Barclay T, Gagné J, Gao P, Cale B, Matzko W, Dragomir D, Quinn S, Feliz D, Stassun K, Crossfield IJM, Berardo DA, Latham DW, Tieu B, Anglada-Escudé G, Ricker G, Vanderspek R, Seager S, Winn JN, Jenkins JM, Rinehart S, Krishnamurthy A, Dynes S, Doty J, Adams F, Afanasev DA, Beichman C, Bottom M, Bowler BP, Brinkworth C, Brown CJ, Cancino A, Ciardi DR, Clampin M, Clark JT, Collins K, Davison C, Foreman-Mackey D, Furlan E, Gaidos EJ, Geneser C, Giddens F, Gilbert E, Hall R, Hellier C, Henry T, Horner J, Howard AW, Huang C, Huber J, Kane SR, Kenworthy M, Kielkopf J, Kipping D, Klenke C, Kruse E, Latouf N, Lowrance P, Mennesson B, Mengel M, Mills SM, Morton T, Narita N, Newton E, Nishimoto A, Okumura J, Palle E, Pepper J, Quintana EV, Roberge A, Roccatagliata V, Schlieder JE, Tanner A, Teske J, Tinney CG, Vanderburg A, von Braun K, Walp B, Wang J, Wang SX, Weigand D, White R, Wittenmyer RA, Wright DJ, Youngblood A, Zhang H, and Zilberman P

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

5. A planet within the debris disk around the pre-main-sequence star AU Microscopii.

Author

Plavchan P, Barclay T, Gagné J, Gao P, Cale B, Matzko W, Dragomir D, Quinn S, Feliz D, Stassun K, Crossfield IJM, Berardo DA, Latham DW, Tieu B, Anglada-Escudé G, Ricker G, Vanderspek R, Seager S, Winn JN, Jenkins JM, Rinehart S, Krishnamurthy A, Dynes S, Doty J, Adams F, Afanasev DA, Beichman C, Bottom M, Bowler BP, Brinkworth C, Brown CJ, Cancino A, Ciardi DR, Clampin M, Clark JT, Collins K, Davison C, Foreman-Mackey D, Furlan E, Gaidos EJ, Geneser C, Giddens F, Gilbert E, Hall R, Hellier C, Henry T, Horner J, Howard AW, Huang C, Huber J, Kane SR, Kenworthy M, Kielkopf J, Kipping D, Klenke C, Kruse E, Latouf N, Lowrance P, Mennesson B, Mengel M, Mills SM, Morton T, Narita N, Newton E, Nishimoto A, Okumura J, Palle E, Pepper J, Quintana EV, Roberge A, Roccatagliata V, Schlieder JE, Tanner A, Teske J, Tinney CG, Vanderburg A, von Braun K, Walp B, Wang J, Wang SX, Weigand D, White R, Wittenmyer RA, Wright DJ, Youngblood A, Zhang H, and Zilberman P

Abstract

AU Microscopii (AU Mic) is the second closest pre-main-sequence star, at a distance of 9.79 parsecs and with an age of 22 million years 1 . AU Mic possesses a relatively rare 2 and spatially resolved 3 edge-on debris disk extending from about 35 to 210 astronomical units from the star 4 , and with clumps exhibiting non-Keplerian motion 5-7 . Detection of newly formed planets around such a star is challenged by the presence of spots, plage, flares and other manifestations of magnetic 'activity' on the star 8,9 . Here we report observations of a planet transiting AU Mic. The transiting planet, AU Mic b, has an orbital period of 8.46 days, an orbital distance of 0.07 astronomical units, a radius of 0.4 Jupiter radii, and a mass of less than 0.18 Jupiter masses at 3σ confidence. Our observations of a planet co-existing with a debris disk offer the opportunity to test the predictions of current models of planet formation and evolution.

Published

2020

6. Q&A: The dinosaur doctor.

Author

Horner J and Hoffman J

Subjects

Animals, Birds anatomy & histology, Birds genetics, Birds physiology, Cloning, Organism, Computer Graphics, Genetic Engineering, History, 20th Century, History, 21st Century, Paleontology, Play and Playthings, Research Personnel supply & distribution, Workforce, Dinosaurs anatomy & histology, Dinosaurs genetics, Dinosaurs physiology, Motion Pictures history, Research Personnel history

Published

2015

7. Loss of p16Ink4a with retention of p19Arf predisposes mice to tumorigenesis.

Author

Sharpless NE, Bardeesy N, Lee KH, Carrasco D, Castrillon DH, Aguirre AJ, Wu EA, Horner JW, and DePinho RA

Subjects

9,10-Dimethyl-1,2-benzanthracene, Animals, Carcinogens, Cell Division, Cell Transformation, Neoplastic, Cells, Cultured, Embryo, Mammalian cytology, Female, Fibroblasts physiology, Gene Deletion, Gene Targeting, Male, Mice, Mice, Knockout, Proteins physiology, T-Lymphocytes immunology, Thymus Gland pathology, Tumor Suppressor Protein p14ARF, Urethane, Genes, p16, Genetic Predisposition to Disease, Neoplasms genetics, Proteins genetics

Abstract

The cyclin-dependent kinase inhibitor p16INK4a can induce senescence of human cells, and its loss by deletion, mutation or epigenetic silencing is among the most frequently observed molecular lesions in human cancer. Overlapping reading frames in the INK4A/ARF gene encode p16INK4a and a distinct tumour-suppressor protein, p19ARF (ref. 3). Here we describe the generation and characterization of a p16Ink4a-specific knockout mouse that retains normal p19Arf function. Mice lacking p16Ink4a were born with the expected mendelian distribution and exhibited normal development except for thymic hyperplasia. T cells deficient in p16Ink4a exhibited enhanced mitogenic responsiveness, consistent with the established role of p16Ink4a in constraining cellular proliferation. In contrast to mouse embryo fibroblasts (MEFs) deficient in p19Arf (ref. 4), p16Ink4a-null MEFs possessed normal growth characteristics and remained susceptible to Ras-induced senescence. Compared with wild-type MEFs, p16Ink4a-null MEFs exhibited an increased rate of immortalization, although this rate was less than that observed previously for cells null for Ink4a/Arf, p19Arf or p53 (refs 4, 5). Furthermore, p16Ink4a deficiency was associated with an increased incidence of spontaneous and carcinogen-induced cancers. These data establish that p16Ink4a, along with p19Arf, functions as a tumour suppressor in mice.

Published

2001

8. Dinosaurian growth rates and bird origins.

Author

Padian K, de Ricqlès AJ, and Horner JR

Subjects

Animals, Body Constitution, Bone and Bones anatomy & histology, Biological Evolution, Birds anatomy & histology, Birds growth & development, Reptiles growth & development

Abstract

Dinosaurs, like other tetrapods, grew more quickly just after hatching than later in life. However, they did not grow like most other non-avian reptiles, which grow slowly and gradually through life. Rather, microscopic analyses of the long-bone tissues show that dinosaurs grew to their adult size relatively quickly, much as large birds and mammals do today. The first birds reduced their adult body size by shortening the phase of rapid growth common to their larger theropod dinosaur relatives. These changes in timing were primarily related not to physiological differences but to differences in growth strategy.

Published

2001

9. Cranial design and function in a large theropod dinosaur.

Author

Rayfield EJ, Norman DB, Horner CC, Horner JR, Smith PM, Thomason JJ, and Upchurch P

Subjects

Animals, Biomechanical Phenomena, Bite Force, Finite Element Analysis, Mastication, Predatory Behavior, Reptiles physiology, Skull diagnostic imaging, Skull physiology, Tomography, X-Ray Computed, Fossils, Reptiles anatomy & histology, Skull anatomy & histology

Abstract

Finite element analysis (FEA) is used by industrial designers and biomechanicists to estimate the performance of engineered structures or human skeletal and soft tissues subjected to varying regimes of stress and strain. FEA is rarely applied to problems of biomechanical design in animals, despite its potential to inform structure-function analysis. Non-invasive techniques such as computed tomography scans can be used to generate accurate three-dimensional images of structures, such as skulls, which can form the basis of an accurate finite element model. Here we have applied this technique to the long skull of the large carnivorous theropod dinosaur Allosaurus fragilis. We have generated the most geometrically complete and complex FEA model of the skull of any extinct or extant organism and used this to test its mechanical properties and examine, in a quantitative way, long-held hypotheses concerning overall shape and function. The combination of a weak muscle-driven bite force, a very 'light' and 'open' skull architecture and unusually high cranial strength, suggests a very specific feeding behaviour for this animal. These results demonstrate simply the inherent potential of FEA for testing mechanical behaviour in fossils in ways that, until now, have been impossible.

Published

2001

10. Interplay of p53 and DNA-repair protein XRCC4 in tumorigenesis, genomic stability and development.

Author

Gao Y, Ferguson DO, Xie W, Manis JP, Sekiguchi J, Frank KM, Chaudhuri J, Horner J, DePinho RA, and Alt FW

Subjects

Animals, Cell Cycle, Cell Differentiation, Embryo, Mammalian metabolism, Gene Rearrangement, Genome, Ku Autoantigen, Life Expectancy, Lymphoma, B-Cell genetics, Mice, Neurons cytology, Neurons metabolism, Nuclear Proteins metabolism, T-Lymphocytes cytology, T-Lymphocytes metabolism, Translocation, Genetic, Tumor Suppressor Protein p53 deficiency, Antigens, Nuclear, DNA Helicases, DNA Repair, DNA-Binding Proteins metabolism, Lymphoma, B-Cell etiology, Tumor Suppressor Protein p53 metabolism

Abstract

XRCC4 is a non-homologous end-joining protein employed in DNA double strand break repair and in V(D)J recombination. In mice, XRCC4-deficiency causes a pleiotropic phenotype, which includes embryonic lethality and massive neuronal apoptosis. When DNA damage is not repaired, activation of the cell cycle checkpoint protein p53 can lead to apoptosis. Here we show that p53-deficiency rescues several aspects of the XRCC4-deficient phenotype, including embryonic lethality, neuronal apoptosis, and impaired cellular proliferation. However, there was no significant rescue of impaired V(D)J recombination or lymphocyte development. Although p53-deficiency allowed postnatal survival of XRCC4-deficient mice, they routinely succumbed to pro-B-cell lymphomas which had chromosomal translocations linking amplified c-myc oncogene and IgH locus sequences. Moreover, even XRCC4-deficient embryonic fibroblasts exhibited marked genomic instability including chromosomal translocations. Our findings support a crucial role for the non-homologous end-joining pathway as a caretaker of the mammalian genome, a role required both for normal development and for suppression of tumours.

Published

2000

11. Essential role for oncogenic Ras in tumour maintenance.

Author

Chin L, Tam A, Pomerantz J, Wong M, Holash J, Bardeesy N, Shen Q, O'Hagan R, Pantginis J, Zhou H, Horner JW 2nd, Cordon-Cardo C, Yancopoulos GD, and DePinho RA

Subjects

Animals, Apoptosis, Doxycycline pharmacology, Endothelial Growth Factors metabolism, Gene Expression Regulation, Neoplastic drug effects, Lymphokines metabolism, Melanoma blood supply, Melanoma immunology, Mice, Mice, SCID, Mice, Transgenic, Tumor Cells, Cultured, Vascular Endothelial Growth Factor A, Vascular Endothelial Growth Factors, Genes, ras, Melanoma genetics, Oncogenes

Abstract

Advanced malignancy in tumours represents the phenotypic endpoint of successive genetic lesions that affect the function and regulation of oncogenes and tumour-suppressor genes. The established tumour is maintained through complex and poorly understood host-tumour interactions that guide processes such as angiogenesis and immune sequestration. The many different genetic alterations that accompany tumour genesis raise questions as to whether experimental cancer-promoting mutations remain relevant during tumour maintenance. Here we show that melanoma genesis and maintenance are strictly dependent upon expression of H-RasV12G in a doxycycline-inducible H-Ras12G mouse melanoma model null for the tumour suppressor INK4a. Withdrawal of doxycycline and H-RasV12G down-regulation resulted in clinical and histological regression of primary and explanted tumours. The initial stages of regression involved marked apoptosis in the tumour cells and host-derived endothelial cells. Although the regulation of vascular endothelial growth factor (VEGF) was found to be Ras-dependent in vitro, the failure of persistent endogenous and enforced VEGF expression to sustain tumour viability indicates that the tumour-maintaining actions of activated Ras extend beyond the regulation of VEGF expression in vivo. Our results provide genetic evidence that H-RasV12G is important in both the genesis and maintenance of solid tumours.

Published

1999

12. Essential role of mouse telomerase in highly proliferative organs.

Author

Lee HW, Blasco MA, Gottlieb GJ, Horner JW 2nd, Greider CW, and DePinho RA

Subjects

Animals, Apoptosis, Chromosome Banding, Embryonic and Fetal Development physiology, Female, Hematopoiesis physiology, Hematopoietic Stem Cells physiology, Lymphocytes physiology, Male, Mice, Mice, Inbred C57BL, Ovary cytology, Ovary physiology, Telomerase deficiency, Telomere, Testis cytology, Testis physiology, Cell Division physiology, Telomerase physiology

Abstract

We have investigated the role of the enzyme telomerase in highly proliferative organs in successive generations of mice lacking telomerase RNA. Late-generation animals exhibited defective spermatogenesis, with increased programmed cell death (apoptosis) and decreased proliferation in the testis. The proliferative capacity of haematopoietic cells in the bone marrow and spleen was also compromised. These progressively adverse effects coincided with substantial erosion of telomeres (the termini of eukaryotic chromosomes) and fusion and loss of chromosomes. These findings indicate an essential role for telomerase, and hence telomeres, in the maintenance of genomic integrity and in the long-term viability of high-renewal organ systems.

Published

1998