97,645 research outputs found
J. D. Wright Collection
Photograph of the Tribbey High School Basketball Team, Tribbey, OK. L to R: front: 1. Gene Cossey, 2. Loyd Shipp, 3. J. D. Wright, 4. Kenneth Lindsay, 5. Bill Simmons, 6. Jack Roberts (Coach). Back: 1. John Whisler, 2. Drew Colwell, 3. Therman Berry, 4. Jack Watkins, 5.Zack Morgan, 6. Thelbert Farr
Evidence for the decay B0→J/ψω and measurement of the relative branching fractions of meson decays to J/ψη and J/ψη′
First evidence of the B 0 → J / ψ ω decay is found and the B s 0 → J / ψ η and B s 0 → J / ψ η ′ decays are studied using a dataset corresponding to an integrated luminosity of 1.0 fb -1 collected by the LHCb experiment in proton-proton collisions at a centre-of-mass energy of sqrt(s) = 7 TeV. The branching fractions of these decays are measured relative to that of the B 0 → J / ψ ρ 0 decay:frac(B (B 0 → J / ψ ω), B (B 0 → J / ψ ρ 0)) = 0.89 ± 0.19 (stat) - 0.13 + 0.07 (syst),frac(B (B s 0 → J / ψ η), B (B 0 → J / ψ ρ 0)) = 14.0 ± 1.2 (stat) - 1.5 + 1.1 (syst) - 1.0 + 1.1 (frac(f d, f s)),frac(B (B s 0 → J / ψ η ′), B (B 0 → J / ψ ρ 0)) = 12.7 ± 1.1 (stat) - 1.3 + 0.5 (syst) - 0.9 + 1.0 (frac(f d, f s)), where the last uncertainty is due to the knowledge of f d / f s, the ratio of b-quark hadronization factors that accounts for the different production rate of B 0 and B s 0 mesons. The ratio of the branching fractions of B s 0 → J / ψ η ′ and B s 0 → J / ψ η decays is measured to befrac(B (B s 0 → J / ψ η ′), B (B s 0 → J / ψ η)) = 0.90 ± 0.09 (stat) - 0.02 + 0.06 (syst)
[Letter from J. D. Sandefer, Jr. to W. P. Wright - July 12, 1948]
A letter written to Mr. W. P. "Dub" Wright, Abilene, Texas from J. D. Sandefer, Jr. dated July 12, 1948. Sandefer advises of the fundraising efforts for Hunter Hall and the need for he and Wright to meet with T. N. Carswell and Bud Perini. He advises of the need to prepare a program noting that Tommy Carswell is the best on "matters of that kind" and has already given some splendid ideas
The Persistence of the R.A. Fisher-Sewall Wright Controversy
This paper considers recent heated debates led by Jerry A. Coyne and Michael J. Wade on issues stemming from the 1929-1962 R. A. Fisher-Sewall Wright controversy in population genetics. William B. Provine once remarked that the Fisher-Wright controversy is central, fundamental, and very influential. Indeed, it is also persistent. The argumentative structure of the recent (1997-2000) debates is analyzed with the aim of eliminating a logical conflict in them, viz., that the two “sides” in the debates have different aims and that, as such, they are talking past each other. Given a philosophical analysis of the argumentative structure of the debates, suggestions supportive of Wade’s work on the debate are made that are aimed, modestly, at putting the persistent Fisher-Wright controversy on the course to resolution
Amplification of the genes for both components of ribonucleotide reductase in hydroxyurea resistant mammalian cells
PT: J; CR: ASHIHARA J, 1979, METHOD ENZYMOL, V58, P259 BIN N, 1976, NUCLEIC ACIDS RES, V3, P2303 BOLIN RW, 1982, CANCER, V50, P1683 CHIRGWIN JM, 1979, BIOCHEMISTRY-US, V18, P5294 CHOY BK, 1988, CANCER RES, V48, P2029 CHOY BK, 1989, BIOCHEM BIOPH RES CO, V162, P1417 COCKING JM, 1987, SOMAT CELL MOLEC GEN, V13, P221 DONOVAN PB, 1984, AM J HEMATOL, V17, P329 ELFORD HL, 1989, INT ENCY PHARM THERA, V128, P217 ENGSTROM PF, 1984, AM J CLIN ONCOL-CANC, V7, P313 GRASLUND A, 1982, J BIOL CHEM, V257, P5711 HARDS RG, 1981, J CELL PHYSIOL, V106, P309 HOPPER S, 1972, J BIOL CHEM, V247, P3336 JACKSON RC, 1989, INT ENCY PHARM THERA, V128, P89 LEWIS WH, 1983, MOL CELL BIOL, V3, P1053 MCCLARTY GA, 1986, SOMAT CELL MOLEC GEN, V12, P121 MCCLARTY GA, 1987, BIOCHEMISTRY-US, V26, P8004 MCDONALD CJ, 1981, PHARMACOL THERAPEUT, V14, P1 MOORE EC, 1989, INT ENCY PHARM THERA, V128, P165 PIVER MS, 1983, AM J OBSTET GYNECOL, V147, P803 SCHIMKE RT, 1988, J BIOL CHEM, V263, P5989 STARK GR, 1986, CANCER SURV, V5, P1 STARK GR, 1989, CELL, V57, P901 STEEPER JR, 1970, ANAL BIOCHEM, V34, P123 TAGGER AY, 1987, BIOCH CELL BIOL, V65, P925 THELANDER L, 1980, J BIOL CHEM, V255, P7426 THELANDER L, 1986, MOL CELL BIOL, V6, P3433 THELANDER M, 1985, J BIOL CHEM, V260, P2737 VEALE D, 1988, BRIT J CANCER, V58, P70 WRIGHT JA, 1987, SOMAT CELL MOLEC GEN, V13, P155 WRIGHT JA, 1989, DRUG RESISTANCE MAMM, V1, P15 WRIGHT JA, 1989, INT ENCY PHARM THERA, V128, P89; NR: 32; TC: 19; J9: BIOCHEM BIOPHYS RES COMMUN; PG: 7; GA: CQ503Source type: Electronic(1
Soils of western Wright Valley, Antarctica
Western Wright Valley, from Wright Upper Glacier to the western end of the Dais, can be divided into three broad geomorphic regions: the elevated Labyrinth, the narrow Dais which is connected to the Labyrinth, and the North and South forks which are bifurcated by the Dais. Soil associations of Typic Haplorthels/Haploturbels with ice-cemented permafrost at 70 cm. They are developed in situ in strongly weathered drift with very low surface boulder frequency and occur on the upper erosion surface of the Labyrinth and on the Dais. Typic Anhyorthels also occur at lower elevation on sinuous and patchy Wright Upper III drift within the forks. Salic Aquorthels exist only in the South Fork marginal to Don Juan Pond, whereas Salic Haplorthels occur in low areas of both South and North forks where any water table is> 50 cm. Most soils within the study area have an alkaline pH dominated by Na+ and Cl- ions. The low salt accumulation within Haplorthels/Haploturbels may be due to limited depth of soil development and possibly leaching
Papers of Roy Douglas Wright
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/67704Letter from Professor J. Buchanan, Auckland to Professor Wright, 23 July with enclosure dated 26 April; reply Professor Wright to Professor Buchanan, 9 August; all concerning the Milan Brych Inquiry. Dates: 26 April - 9 August 1985114540
Acquisition: [1985.0085] "Papers of Roy Douglas Wright
Secondary Literacy Across the Curriculum
This paper discusses the challenges and possibilities attendant upon successfully implementing literacy across the curriculum initiatives – or ‘school language policies’ as they have come to be known – particularly at the secondary or high school level. It provides a theoretical background to these issues, exploring previous academic discussions of school language policies, and highlights key areas of concern as well as opportunity with respect to school implementation of such policies. As such, it provides a necessary conceptual background to the subsequent papers in this special issue, which focus upon the Secondary Schools’ Literacy Initiative (SSLI) – a New Zealand funded programme that aims to establish cross-curricular language and literacy policies in secondary schools
Transformation of mucocartilage to a definitive cartilage during metamorphosis in the sea lamprey, Petromyzon-marinus
PT: J; CR: ARCHER CW, 1982, CELL DIFFER, V11, P245 BROWDER LW, 1980, DEV BIOL, P577 CAPLAN AI, 1973, J EMBRYOL EXP MORPH, V29, P571 DAMAS H, 1935, ARCH BIOL, V46, P171 DARNELL J, 1986, MOL CELL BIOL EDE DA, 1983, CARTILAGE, V2, P143 EIKENBERRY EF, 1984, J MOL BIOL, V176, P261 FOX H, 1975, J EMBRYOL EXP MORPH, V34, P191 FUKUDA Y, 1984, AM J ANAT, V170, P597 GODMAN GC, 1960, J BIOPHYS BIOCHEM CY, V8, P719 GOEL SC, 1970, J EMBRYOL EXPTL MORP, V23, P169 GOSS RJ, 1972, AM ZOOL, V12, P151 GOULD RP, 1972, EXP CELL RES, V72, P325 HALL BK, 1978, DEV CELLULAR SKELETA, P86 HAM AW, 1979, HISTOLOGY HARDISTY MW, 1971, BIOL LAMPREYS, V1, P127 HARDISTY MW, 1971, BIOL LAMPREYS, V1, P85 HARDISTY MW, 1981, BIOL LAMPREYS, V3, P333 HASTY KA, 1981, DEV BIOL, V86, P198 HASTY KA, 1983, J HISTOCHEM CYTOCHEM, V31, P1367 HEASMAN J, 1978, J EMBRYOL EXP MORPH, V46, P119 HORNBRUCH A, 1970, NATURE, V226, P764 HUNZIKER EB, 1982, J ULTRASTRUCT RES, V81, P1 JANNERS MY, 1970, DEV BIOL, V23, P136 JOHNELS A, 1948, ACTA ZOOL-STOCKHOLM, V29, P139 JURAND A, 1965, P ROY SOC B, V162, P387 KIMURA S, 1982, COMP BIOCH PHYSL, V73, P335 KOSHER RA, 1980, J EMBRYOL EXP MORPH, V56, P91 KOSHER RA, 1983, CARTILAGE, V1, P59 LASH JW, 1978, DEV BIOL, V66, P151 LINSENMAYER TF, 1981, CELL BIOL EXTRACELLU, P5 MANGIA F, 1970, ARCH ANAT MICROSC MO, V59, P283 MARTIN GR, 1985, TRENDS BIOCHEM SCI, V10, P285 MILLER EJ, 1969, P NATL ACAD SCI USA, V64, P1264 NATHANSON MA, 1980, DEV BIOL, V78, P301 OLSON M, 1971, AM J ANAT, V131, P197 POTTER IC, 1978, CAN J ZOOL, V56, P561 SCHMIDT AJ, 1968, CELLULAR BIOL VERTEB SCHNEIDER A, 1879, ANATOMIE ENTWICKELUN, P85 SEARLS RL, 1972, DEV BIOL, V28, P123 SHEEHAN DC, 1980, THEORY PRACTICE HIST SHELDON H, 1983, CARTILAGE, V1, P87 SHEREN SB, 1986, COMP BIOCHEM PHYS B, V85, P5 SHORE RC, 1981, J ANAT, V133, P67 STOCKWELL RA, 1979, BIOL CARTILAGE CELLS STUDNICKA FK, 1897, ARCH MIKROSK ANAT, V48, P606 SUMMERBELL D, 1973, NATURE, V244, P492 THOROGOOD PV, 1975, J EMBRYOL EXP MORPH, V33, P581 VONDERMARK K, 1979, CLIN ORTHOP RELAT R, V139, P185 WATENABE K, 1974, CELL TISS RES, V155, P321 WRIGHT GM, 1982, AM J ANAT, V165, P39 WRIGHT GM, 1983, AM J ANAT, V167, P59 WRIGHT GM, 1983, EXPERIENTIA, V39, P495 WRIGHT GM, 1984, CAN J ZOOL, V62, P2445 YOUSON JH, 1979, CAN J ZOOL, V57, P1808 YOUSON JH, 1982, J MORPHOL, V171, P89; NR: 56; TC: 10; J9: J MORPHOL; PG: 21; GA: K6234Source type: Electronic(1
Transformation of the endostyle of the anadromous sea lamprey, Petromyzon-marinus L, during metamorphosis .2. Electron-microscopy
PT: J; CR: BARRINGTON EJW, 1956, Q J MICROSC SCI, V97, P393 BARRINGTON EJW, 1975, INTRO GENERAL COMP E BEAMISH FWH, 1975, J ZOOL, V177, P57 BENCOSME SA, 1959, J BIOPHYS BIOCHEM CY, V5, P508 CHENG H, 1974, AM J ANAT, V141, P537 CLEMENTSMERLINI M, 1960, J MORPHOL, V106, P337 COLEMAN R, 1968, GEN COMP ENDOCR, V10, P34 CORDIER AC, 1976, AM J ANAT, V146, P339 DAEMS WT, 1969, LYSOSOMES, V1, P64 EGEBERG J, 1965, Z ZELLFORSCH MIKROSK, V68, P102 ETKIN W, 1968, METAMORPHOSIS PROBLE, P313 FINSTAD J, 1964, J EXP MED, V120, P1151 FOX H, 1970, J EMBRYOL EXP MORPH, V24, P139 FOX H, 1973, Z ZELLFORSCH, V130, P371 FUJITA H, 1966, Z ZELLFORSCH MIKROSK, V73, P559 FUJITA H, 1968, GEN COMP ENDOCR, V11, P111 FUJITA H, 1969, Z ZELLFORSCH, V98, P525 FUJITA H, 1972, ARCH HISTOL JAPON, V34, P109 FUJITA H, 1975, ARCH HISTOL JPN, V37, P277 FUJITA H, 1975, INT REV CYTOL, V40, P197 GOOD RA, 1972, BIOL LAMPREYS, V2, P405 GORBMAN A, 1962, TXB COMP ENDOCRINOLO HELMINEN HJ, 1971, J ULTRASTRUCT RES, V36, P708 HENDERSON NE, 1971, GEN COMP ENDOCR, V16, P409 HILFER SR, 1964, J MORPHOL, V115, P135 HILFER SR, 1977, J CELL BIOL, V75, P446 HOHEISEL G, 1969, GEGENBAURS MORPHOL J, V114, P204 HOHEISEL G, 1970, MORPHOL JB, V114, P337 HOURDRY J, 1969, Z ZELLFORSCH MIKR AN, V101, P527 JAMIESON JD, 1977, INT CELL BIOL, P308 KLINCK GH, 1970, LAB INVEST, V22, P2 KRAENVZEL F, 1933, ARCH BIOL LIEGE, V44, P469 KRUPP PP, 1977, ANAT REC, V187, P495 LANZING WJR, 1959, STUDIES RIVER LAMPRE LEACH JW, 1939, J MORPHOL, V65, P549 LUFT JH, 1961, J BIOPHYS BIOCH CYTO, V9, P409 MANASEK FJ, 1969, J EMBRYOL EXP MORPH, V21, P271 MARINE D, 1913, J EXP MED, V17, P379 MILLONIG G, 1961, J APPL PHYS, V32, P1637 MOLLENHAUER HH, 1964, STAIN TECHNOL, V39, P111 MORRIS GP, 1979, CELL TISSUE RES, V196, P449 NEUENSCHWANDER P, 1972, Z ZELLFORSCH MIKROSK, V130, P553 NEVE P, 1965, J MICROSC-PARIS, V4, P811 NICKERSON PA, 1970, J CELL BIOL, V47, P277 NOVIKOFF AB, 1976, CELLS ORGANELLES NUNEZ EA, 1967, J CELL BIOL, V2, P404 NUNEZ EA, 1976, ANAT REC, V184, P133 OLIN P, 1970, ENDOCRINOLOGY, V87, P1000 OLIVEREAU M, 1952, ARCH ANAT MICROSC EX, V41, P1 OOI EC, 1976, CAN J ZOOL, V54, P1449 OOI EC, 1979, AM J ANAT, V154, P57 PEEK WD, 1979, J MORPHOL, V160, P143 PIPAN N, 1976, CYTOBIOLOGIE, V13, P435 POLLARD B, 1966, PHYLOGENY IMMUNITY, P88 REMY L, 1977, J ULTRASTRUCT RES, V61, P243 REYNOLDS ES, 1963, J CELL BIOL, V17, P208 ROITT IM, 1971, ESSENTIAL IMMUNOLOGY, P211 ROMERT P, 1973, Z ANAT ENTWICKLUNGS, V139, P319 SELJELID R, 1967, J ULTRASTRUCT RES, V17, P195 SELJELID R, 1967, J ULTRASTRUCT RES, V17, P401 SETOGUTI T, 1973, Z ZELLFORSCH MIKROSK, V137, P195 SHEPARD TH, 1967, J CLIN ENDOCR METAB, V27, P945 SHIVELY JN, 1969, AM J VET RES, V30, P219 STERBA G, 1953, WISS Z F SCHILLER MN, V3, P1 STERBA G, 1953, WISS Z F SCHILLER MN, V3, P239 STERBA G, 1961, INT REV GES HYDROBIO, V46, P105 STERBA G, 1962, HDB BINNENFISCHEREI, V3, P263 THIELE J, 1976, CELL TISSUE RES, V168, P133 WATSON ML, 1958, J BIOPHYS BIOCHEM CY, V4, P475 WESSELLS NK, 1971, SCIENCE, V171, P135 WETZEL BK, 1969, ENDOCRINOLOGY, V84, P563 WISSIG SL, 1960, J BIOPHYS BIOCHEM CY, V7, P419 WOLLMAN SH, 1969, LYSOSOMES BIOLOGY PA, V2, P483 WRIGHT G, 1978, AM J ANAT, V152, P263 WRIGHT GM, 1976, GEN COMP ENDOCR, V30, P243 WRIGHT GM, 1977, J EXP ZOOL, V202, P27 WRIGHT GM, 1978, THESIS U TORONTO, P70 YOUSON JH, 1977, CAN J ZOOL, V55, P469 YOUSON JH, 1979, CAN J ZOOL, V57, P1808 YOUSON JH, 1980, CAN J FISH AQUAT SCI, V37; NR: 80; TC: 21; J9: J MORPHOL; PG: 27; GA: KT943Source type: Electronic(1
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