Catalogo Articoli (Spogli Riviste)

HELP
ATTENZIONE: attualmente gli articoli Current Contents (fonte ISI) a partire dall'anno 2002 sono consultabili sulla Risorsa On-Line

Le informazioni sugli articoli di fonte ISI sono coperte da copyright

La ricerca find articoli where soggetti phrase all words 'somitogenesis' sort by level,fasc_key/DESCEND, pagina_ini_num/ASCEND ha restituito 101 riferimenti
Si mostrano 100 riferimenti a partire da 1
Selezionare un intervallo

Per ulteriori informazioni selezionare i riferimenti di interesse.

    1. Chen, YH; Lee, WC; Liu, CF; Tsai, HJ
      Molecular structure, dynamic expression, and promoter analysis of zebrafish (Danio rerio) myf-5 gene

      GENESIS
    2. Schubert, FR; Tremblay, P; Mansouri, A; Faisst, AM; Kammandel, B; Lumsden, A; Gruss, P; Dietrich, S
      Early mesodermal phenotypes in Splotch suggest a role for Pax3 in the formation of epithelial somites

      DEVELOPMENTAL DYNAMICS
    3. Schmidt, C; Christ, B; Maden, M; Brand-Saberi, B; Patel, K
      Regulation of EphA4 expression in paraxial and lateral plate mesoderm by ectoderm-derived signals

      DEVELOPMENTAL DYNAMICS
    4. Patwardhan, V; Ghaskadbi, S
      Activin disrupts somitogenesis in cultured chick embryos

      DEVELOPMENT GENES AND EVOLUTION
    5. Leve, C; Gajewski, M; Rohr, KB; Tautz, D
      Homologues of c-hairy1 (her9) and lunatic fringe in zebrafish are expressed in the developing central nervous system, but not in the presomitic mesoderm

      DEVELOPMENT GENES AND EVOLUTION
    6. Haraguchi, S; Kitajima, S; Takagi, A; Takeda, H; Inoue, T; Saga, Y
      Transcriptional regulation of Mesp1 and Mesp2 genes: differential usage ofenhancers during development

      MECHANISMS OF DEVELOPMENT
    7. Prince, VE; Holley, SA; Bally-Cuif, L; Prabhakaran, B; Oates, AC; Ho, RK; Vogt, TF
      Zebrafish lunatic fringe demarcates segmental boundaries

      MECHANISMS OF DEVELOPMENT
    8. Rallis, C; Stamataki, D; Pontikakis, S; Mankoo, BS; Karagogeos, D
      Isolation of the avian homologue of the homeobox gene Mox2 and analysis ofits expression pattern in developing somites and limbs

      MECHANISMS OF DEVELOPMENT
    9. Cauthen, CA; Berdougo, E; Sandler, J; Burrus, LW
      Comparative analysis of the expression patterns of Wnts and Frizzleds during early myogenesis in chick embryos

      MECHANISMS OF DEVELOPMENT
    10. Pasini, A; Henrique, D; Wilkinson, DG
      The zebrafish Hairy/Enhancer-of-split-related gene her6 is segmentally expressed during the early development of hindbrain and somites

      MECHANISMS OF DEVELOPMENT
    11. Bessho, Y; Sakata, R; Komatsu, S; Shiota, K; Yamada, S; Kageyama, R
      Dynamic expression and essential functions of Hes7 in somite segmentation

      GENES & DEVELOPMENT
    12. Dubrulle, J; McGrew, MJ; Pourquie, O
      FGF signaling controls somite boundary position and regulates segmentationclock control of spatiotemporal Hox gene activation

      CELL
    13. Chernoff, EAG; Clarke, DO; Wallace-Evers, JL; Hungate-Muegge, LP; Smith, RC
      The effects of collagen synthesis inhibitory drugs on somitogenesis and myogenin expression in cultured chick and mouse embryos

      TISSUE & CELL
    14. Jaeger, J; Goodwin, BC
      A cellular oscillator model for periodic pattern formation

      JOURNAL OF THEORETICAL BIOLOGY
    15. Rescan, PY; Collet, B; Ralliere, C; Cauty, C; Delalande, JM; Goldspink, G; Fauconneau, B
      Red and white muscle development in the trout (Oncorhynchus mykiss) as shown by in situ hybridisation of fast and slow myosin heavy chain transcripts

      JOURNAL OF EXPERIMENTAL BIOLOGY
    16. Sun, JX; Kamei, CN; Layne, MD; Jain, MK; Liao, JK; Lee, ME; Chin, MT
      Regulation of myogenic terminal differentiation by the hairy-related transcription factor CHF2

      JOURNAL OF BIOLOGICAL CHEMISTRY
    17. Pourquie, O
      The vertebrate segmentation clock

      JOURNAL OF ANATOMY
    18. Gray, M; Moens, CB; Amacher, SL; Eisen, JS; Beattie, CE
      Zebrafish deadly seven functions in neurogenesis

      DEVELOPMENTAL BIOLOGY
    19. Kiefer, JC; Hauschka, SD
      Myf-5 is transiently expressed in nonmuscle mesoderm and exhibits dynamic regional changes within the presegmented mesoderm and somites I-IV

      DEVELOPMENTAL BIOLOGY
    20. Schnell, S; Painter, KJ; Maini, PK; Othmer, HG
      Spatiotemporal pattern formation in early development: A review of primitive streak formation and somitogenesis

      MATHEMATICAL MODELS FOR BIOLOGICAL PATTERN FORMATION
    21. Matsuda, M
      Roles of beta-catenin in somitogenesis in rat embryos

      IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL
    22. Stickney, HL; Barresi, MJF; Devoto, SH
      Somite development in zebrafish

      DEVELOPMENTAL DYNAMICS
    23. Nacke, S; Schafer, R; De Angelis, MH; Mundlos, S
      Mouse mutant "rib-vertebrae" (rv): A defect in somite polarity

      DEVELOPMENTAL DYNAMICS
    24. Schnell, S; Maini, PK
      Clock and induction model for somitogenesis

      DEVELOPMENTAL DYNAMICS
    25. Schubert, M; Holland, LZ; Holland, ND
      Characterization of two amphioxus Wnt genes (AmphiWnt4 and AmphiWnt7b) with early expression in the developing central nervous system

      DEVELOPMENTAL DYNAMICS
    26. Pourquie, O
      Vertebrate segmentation: is cycling the rule?

      CURRENT OPINION IN CELL BIOLOGY
    27. Sawada, A; Fritz, A; Jiang, YJ; Yamamoto, A; Yamasu, K; Kuroiwa, A; Saga, Y; Takeda, H
      Zebrafish Mesp family genes, mesp-a and mesp-b are segmentally expressed in the presomitic mesoderm, and Mesp-b confers the anterior identity to the developing somites

      DEVELOPMENT
    28. Durbin, L; Sordino, P; Barrios, A; Gering, M; Thisse, C; Thisse, B; Brennan, C; Green, A; Wilson, S; Holder, N
      Anteroposterior patterning is required within segments for somite boundaryformation in developing zebrafish

      DEVELOPMENT
    29. Jouve, C; Palmeirim, I; Henrique, D; Beckers, J; Gossler, A; Ish-Horowicz, D; Pourquie, O
      Notch signalling is required for cyclic expression of the hairy-like gene HES1 in the presomitic mesoderm

      DEVELOPMENT
    30. Goldman, DC; Martin, GR; Tam, PPL
      Fate and function of the ventral ectodermal ridge during mouse tail development

      DEVELOPMENT
    31. Wake, MH; Wake, DB
      Developmental morphology of early vertebrogenesis in Caecilians (Amphibia : Gymnophiona): Resegmentation and phylogenesis

      ZOOLOGY-ANALYSIS OF COMPLEX SYSTEMS
    32. Leimeister, C; Schumacher, N; Steidl, C; Gessler, M
      Analysis of HeyL expression in wild-type and Notch pathway mutant mouse embryos

      MECHANISMS OF DEVELOPMENT
    33. Buchberger, A; Bonneick, S; Arnold, HH
      Expression of the novel basic-helix-loop-helix transcription factor cMespoin presomitic mesoderm of chicken embryos

      MECHANISMS OF DEVELOPMENT
    34. Holley, SA; Geisler, R; Nusslein-Volhard, C
      Control of her1 expression during zebrafish somitogenesis by a Delta-dependent oscillator and an independent wave-front activity

      GENES & DEVELOPMENT
    35. Kaern, M; Menzinger, M; Hunding, A
      A chemical flow system mimics waves of gene expression during segmentation

      BIOPHYSICAL CHEMISTRY
    36. Hirsinger, E; Jouve, C; Dubrulle, J; Pourquie, O
      Somite formation and patterning

      INTERNATIONAL REVIEW OF CYTOLOGY - A SURVEY OF CELL BIOLOGY, VOL 198
    37. Kerszberg, M; Wolpert, L
      A clock and trail model for somite formation, specialization and polarization

      JOURNAL OF THEORETICAL BIOLOGY
    38. Leimeister, C; Dale, K; Fischer, A; Klamt, B; de Angelis, MH; Radtke, F; McGrew, MJ; Pourquie, O; Gessler, M
      Oscillating expression of c-Hey2 in the presomitic mesoderm suggests that the segmentation clock may use combinatorial signaling through multiple interacting bHLH factors

      DEVELOPMENTAL BIOLOGY
    39. Li, ZL; Shiota, K
      Stage-specific homeotic vertebral transformations in mouse fetuses inducedby maternal hyperthermia during somitogenesis

      DEVELOPMENTAL DYNAMICS
    40. Skerjanc, IS
      Cardiac and skeletal muscle development in P19 embryonal carcinoma cells

      TRENDS IN CARDIOVASCULAR MEDICINE
    41. Pourquie, O
      Notch around the clock

      CURRENT OPINION IN GENETICS & DEVELOPMENT
    42. Meng, AM; Moore, B; Tang, H; Yuan, BZ; Lin, S
      A Drosophila doublesex-related gene, terra, is involved in somitogenesis in vertebrates

      DEVELOPMENT
    43. Pituello, F; Medevielle, F; Foulquier, F; Duprat, AM
      Activation of Pax6 depends on somitogenesis in the chick embryo cervical spinal cord

      DEVELOPMENT
    44. Takke, C; Campos-Ortega, JA
      her1, a zebrafish pair-rule like gene, acts downstream of notch signallingto control somite development

      DEVELOPMENT
    45. Sahly, I; Andermann, P; Petit, C
      The zebrafish eya1 gene and its expression pattern during embryogenesis

      DEVELOPMENT GENES AND EVOLUTION
    46. Roy, MN; Prince, VE; Ho, RK
      Heat shock produces periodic somitic disturbances in the zebrafish embryo

      MECHANISMS OF DEVELOPMENT
    47. Leimeister, C; Externbrink, A; Klamt, B; Gessler, M
      Hey genes: a novel subfamily of hairy- and Enhancer of split related genesspecifically expressed during mouse embryogenesis

      MECHANISMS OF DEVELOPMENT
    48. Oates, AC; Lackmann, M; Power, MA; Brennan, C; Down, LM; Do, C; Evans, B; Holder, N; Boyd, AW
      An early developmental role for Eph-ephrin interaction during vertebrate gastrulation

      MECHANISMS OF DEVELOPMENT
    49. Schvarzstein, M; Kirn, A; Haffter, P; Cordes, SP
      Expression of Zkrml2, a homologue of the Krml1/val segmentation gene, during embryonic patterning of the zebrafish (Danio rerio)

      MECHANISMS OF DEVELOPMENT
    50. Van der Sar, AM; De Fockert, J; Betist, M; Zivkovic, D; Den Hertog, J
      Pleiotropic effects of zebrafish Protein-Tyrosine Phosphatase-1B on early embryonic development

      INTERNATIONAL JOURNAL OF DEVELOPMENTAL BIOLOGY
    51. Nakagawa, O; Nakagawa, M; Richardson, JA; Olson, EN; Srivastava, D
      HRT1, HRT2, and HRT3: A new subclass of bHLH transcription factors markingspecific cardiac, somitic, and pharyngeal arch segments

      DEVELOPMENTAL BIOLOGY
    52. Horikawa, K; Radice, G; Takeichi, M; Chisaka, O
      Adhesive subdivisions intrinsic to the epithelial somites

      DEVELOPMENTAL BIOLOGY
    53. Yang, JT; Bader, BL; Kreidberg, JA; Ullmann-Cullere, M; Trevithick, JE; Hynes, RO
      Overlapping and independent functions of fibronectin receptor integrins inearly mesodermal development

      DEVELOPMENTAL BIOLOGY
    54. Ferrari, MB; Spitzer, NC
      Calcium signaling in the developing Xenopus myotome

      DEVELOPMENTAL BIOLOGY
    55. Aulehla, A; Johnson, RL
      Dynamic expression of lunatic fringe suggests a link between notch signaling and an autonomous cellular oscillator driving somite segmentation

      DEVELOPMENTAL BIOLOGY
    56. LOMBARDO A; SLACK JMW
      POSTGASTRULATION EFFECTS OF FIBROBLAST GROWTH-FACTOR ON XENOPUS DEVELOPMENT

      Developmental dynamics
    57. FORSBERG H; CROZET F; BROWN NA
      WAVES OF MOUSE LUNATIC FRINGE EXPRESSION, IN 4-HOUR CYCLES AT 2-HOUR INTERVALS, PRECEDE SOMITE BOUNDARY FORMATION

      Current biology
    58. MCGREW MJ; DALE JK; FRABOULET S; POURQUIE O
      THE LUNATIC FRINGE GENE IS A TARGET OF THE MOLECULAR CLOCK LINKED TO SOMITE SEGMENTATION IN AVIAN EMBRYOS

      Current biology
    59. YAMAMOTO A; AMACHER SL; KIM SH; GEISSERT D; KIMMEL CB; DEROBERTIS EM
      ZEBRAFISH PARAXIAL PROTOCADHERIN IS A DOWNSTREAM TARGET OF SPADETAIL INVOLVED IN MORPHOGENESIS OF GASTRULA MESODERM

      Development
    60. SCHAUERTE HE; VANEEDEN FJM; FRICKE C; ODENTHAL J; STRAHLE U; HAFFTER P
      SONIC HEDGEHOG IS NOT REQUIRED FOR THE INDUCTION OF MEDIAL FLOOR PLATE CELLS IN THE ZEBRAFISH

      Development
    61. REIFERS F; BOHLI H; WALSH EC; CROSSLEY PH; STAINIER DYR; BRAND M
      FGF8 IS MUTATED IN ZEBRAFISH ACEREBELLAR (ACE) MUTANTS AND IS REQUIRED FOR MAINTENANCE OF MIDBRAIN-HINDBRAIN BOUNDARY DEVELOPMENT AND SOMITOGENESIS

      Development
    62. Tajbakhsh, S; Borello, U; Vivarelli, E; Kelly, R; Papkoff, J; Duprez, D; Buckingham, M; Cossu, G
      Differential activation of Myf5 and MyoD by different Wnts in explants of mouse paraxial mesoderm and the later activation of myogenesis in the absence of Myf5

      DEVELOPMENT
    63. SAGA Y
      GENETIC RESCUE OF SEGMENTATION DEFECT IN MESP2-DEFICIENT MICE BY MESP1 GENE REPLACEMENT

      Mechanisms of development
    64. MARUOKA Y; OHBAYASHI N; HOSHIKAWA M; ITOH N; HOGAN BLM; FURUTA Y
      COMPARISON OF THE EXPRESSION OF 3 HIGHLY RELATED GENES, FGF8, FGF17 AND FGF18, IN THE MOUSE EMBRYO

      Mechanisms of development
    65. DURBIN L; BRENNAN C; SHIOMI K; COOKE J; BARRIOS A; SHANMUGALINGAM S; GUTHRIE B; LINDBERG R; HOLDER N
      EPH SIGNALING IS REQUIRED FOR SEGMENTATION AND DIFFERENTIATION OF THESOMITES

      Genes & development
    66. HIRANO S; TANAKA H; OHTA K; NORITA M; HOSHINO K; MEGURO R; KASE M
      NORMAL ONTOGENIC OBSERVATIONS ON THE EXPRESSION OF EPH RECEPTOR TYROSINE KINASE, CEK8, IN CHICK-EMBRYOS

      Anatomy and embryology
    67. OUATAS T; SELO M; SADJI Z; HOURDRY J; DENIS H; MAZABRAUD A
      DIFFERENTIAL EXPRESSION OF NUCLEOSIDE DIPHOSPHATE KINASES (NDPK NM23)DURING XENOPUS EARLY DEVELOPMENT/

      The International journal of developmental biology
    68. Kaufman, MH; Brune, RM; Davidson, DR; Baldock, RA
      Computer-generated three-dimensional reconstructions of serially sectionedmouse embryos

      JOURNAL OF ANATOMY
    69. BUCHBERGER A; SEIDL K; KLEIN C; EBERHARDT H; ARNOLD HH
      CMESO-1, A NOVEL BHLH TRANSCRIPTION FACTOR, IS INVOLVED IN SOMITE FORMATION IN CHICKEN EMBRYOS

      Developmental biology (Print)
    70. KNEZEVIC V; DESANTO R; MACKEM S
      2 NOVEL CHICK T-BOX GENES RELATED TO MOUSE BRACHYURY ARE EXPRESSED INDIFFERENT, NONOVERLAPPING MESODERMAL DOMAINS DURING GASTRULATION

      Development
    71. DUNWOODIE SL; HENRIQUE D; HARRISON SM; BEDDINGTON RSP
      MOUSE DLL3 - A NOVEL DIVERGENT DELTA-GENE WHICH MAY COMPLEMENT THE FUNCTION OF OTHER DELTA-HOMOLOG DURING EARLY PATTERN-FORMATION IN THE MOUSE EMBRYO

      Development
    72. NEIDHARDT LM; KISPERT A; HERRMANN BG
      A MOUSE GENE OF THE PAIRED-RELATED HOMEOBOX CLASS EXPRESSED IN THE CAUDAL SOMITE COMPARTMENT AND IN THE DEVELOPING VERTEBRAL COLUMN, KIDNEYAND NERVOUS-SYSTEM

      Development, genes and evolution
    73. WESTIN J; LARDELLI M
      3 NOVEL NOTCH GENES IN ZEBRAFISH - IMPLICATIONS FOR VERTEBRATE NOTCH GENE EVOLUTION AND FUNCTION

      Development, genes and evolution
    74. MENG FY; WHITTAKER CA; RANSOM DG; DESIMONE DW
      CLONING AND CHARACTERIZATION OF CDNAS ENCODING THE INTEGRIN ALPHA-2 AND ALPHA-3 SUBUNITS FROM XENOPUS-LAEVIS

      Mechanisms of development
    75. SAGA Y; HATA N; KOSEKI H; TAKETO MM
      MESP2 - A NOVEL MOUSE GENE EXPRESSED IN THE PRESEGMENTED MESODERM ANDESSENTIAL FOR SEGMENTATION INITIATION

      Genes & development
    76. LI ZL; CHISAKA O; KOSEKI H; AKASAKA T; ISHIBASHI M; SHIOTA K
      HEAT SHOCK-INDUCED HOMEOTIC TRANSFORMATIONS OF THE AXIAL SKELETON ANDASSOCIATED SHIFTS OF HOX GENE-EXPRESSION DOMAINS IN MOUSE EMBRYOS

      Reproductive toxicology
    77. TANNAHILL D; COOK GMW; KEYNES RJ
      AXON GUIDANCE AND SOMITES

      Cell and tissue research
    78. SANTACRUZ H; VRIZ S; ANGELIER N
      MOLECULAR CHARACTERIZATION OF A HEAT-SHOCK COGNATE CDNA OF ZEBRAFISH,HSC70, AND DEVELOPMENTAL EXPRESSION OF THE CORRESPONDING TRANSCRIPTS

      Developmental genetics
    79. RANCOURT SL; RANCOURT DE
      MURINE SUBTILISIN-LIKE PROTEINASE SPC6 IS EXPRESSED DURING EMBRYONIC IMPLANTATION, SOMITOGENESIS, AND SKELETAL FORMATION

      Developmental genetics
    80. WILSON V; BEDDINGTON R
      EXPRESSION OF T-PROTEIN IN THE PRIMITIVE STREAK IS NECESSARY AND SUFFICIENT FOR POSTERIOR MESODERM MOVEMENT AND SOMITE DIFFERENTIATION

      Developmental biology
    81. VANEEDEN FJM; GRANATO M; SCHACH U; BRAND M; FURUTANISEIKI M; HAFFTER P; HAMMERSCHMIDT M; HEISENBERG CP; JIANG YJ; KANE DA; KELSH RN; MULLINS MC; ODENTHAL J; WARGA RM; ALLENDE ML; WEINBERG ES; NUSSLEINVOLHARD C
      MUTATIONS AFFECTING SOMITE FORMATION AND PATTERNING IN THE ZEBRAFISH,DANIO-RERIO

      Development
    82. JIANG YJ; BRAND M; HEISENBERG CP; BEUCHLE D; FURUTANISEIKI M; KELSH RN; WARGA RM; GRANATO M; HAFFTER P; HAMMERSCHMIDT M; KANE DA; MULLINS MC; ODENTHAL J; VANEEDEN FJM; NUSSLEINVOLHARD C
      MUTATIONS AFFECTING NEUROGENESIS AND BRAIN MORPHOLOGY IN THE ZEBRAFISH, DANIO-RERIO

      Development
    83. MULLER M; VONWEIZSACKER E; CAMPOSORTEGA JA
      EXPRESSION DOMAINS OF A ZEBRAFISH HOMOLOG OF THE DROSOPHILA PAIR-RULEGENE HAIRY CORRESPOND TO PRIMORDIA OF ALTERNATING SOMITES

      Development
    84. GRECO TL; TAKADA S; NEWHOUSE MM; MCMAHON TA; MCMAHON AP; CAMPER SA
      ANALYSIS OF THE VESTIGIAL TAIL MUTATION DEMONSTRATES THAT WNT-3A GENEDOSAGE REGULATES MOUSE AXIAL DEVELOPMENT

      Genes & development
    85. BARNES GL; HSU CW; MARIANI BD; TUAN RS
      CHICKEN PAX-1 GENE - STRUCTURE AND EXPRESSION DURING EMBRYONIC SOMITEDEVELOPMENT

      Differentiation
    86. BARNES GL; MARIANI BD; TUAN RS
      VALPROIC ACID-INDUCED SOMITE TERATOGENESIS IN THE CHICK-EMBRYO - RELATIONSHIP WITH PAX-1 GENE-EXPRESSION

      Teratology
    87. VIEIRA VLA; JOHNSTON IA
      MUSCLE DEVELOPMENT IN THE TAMBAQUI, AN IMPORTANT AMAZONIAN FOOD FISH

      Journal of Fish Biology
    88. BELLAIRS R; LEAR P; YAMADA KM; RUTISHAUSER U; LASH JW
      POSTERIOR EXTENSION OF THE CHICK NEPHRIC (WOLFFIAN) DUCT - THE ROLE OF FIBRONECTIN AND NCAM POLYSIALIC ACID

      Developmental dynamics
    89. BETTENHAUSEN B; DEANGELIS MH; SIMON D; GUENET JL; GOSSLER A
      TRANSIENT AND RESTRICTED EXPRESSION DURING MOUSE EMBRYOGENESIS OF DII1, A MURINE GENE CLOSELY-RELATED TO DROSOPHILA-DELTA

      Development
    90. MUNSTERBERG AE; LASSAR AB
      COMBINATORIAL SIGNALS FROM THE NEURAL-TUBE, FLOOR PLATE AND NOTOCHORDINDUCE MYOGENIC BHLH GENE-EXPRESSION IN THE SOMITE

      Development
    91. DEHNI G; LIU YL; HUSAIN J; STIFANI S
      TLE EXPRESSION CORRELATES WITH MOUSE EMBRYONIC SEGMENTATION, NEUROGENESIS, AND EPITHELIAL DETERMINATION

      Mechanisms of development
    92. MUNSTERBERG AE; KITAJEWSKI J; BUMCROT DA; MCMAHON AP; LASSAR AB
      COMBINATORIAL SIGNALING BY SONIC HEDGEHOG AND WNT FAMILY MEMBERS INDUCES MYOGENIC BHLH GENE-EXPRESSION IN THE SOMITE

      Genes & development
    93. JOHNSTON IA; VIEIRA VLA; ABERCROMBY M
      TEMPERATURE AND MYOGENESIS IN EMBRYOS OF THE ATLANTIC HERRING CLUPEA-HARENGUS

      Journal of Experimental Biology
    94. FAGOTTO F; GUMBINER BM
      BETA-CATENIN LOCALIZATION DURING XENOPUS EMBRYOGENESIS - ACCUMULATIONAT TISSUE AND SOMITE BOUNDARIES

      Development
    95. WILTING J; KURZ H; BRANDSABERI B; STEDING G; YANG YX; HASSELHORN HM; EPPERLEIN HH; CHRIST B
      KINETICS AND DIFFERENTIATION OF SOMITE CELLS FORMING THE VERTEBRAL COLUMN - STUDIES ON HUMAN AND CHICK-EMBRYOS

      Anatomy and embryology
    96. TAM PPL; TRAINOR PA
      SPECIFICATION AND SEGMENTATION OF THE PARAXIAL MESODERM

      Anatomy and embryology
    97. BROOKS S; JOHNSTON IA
      TEMPERATURE AND SOMITOGENESIS IN EMBRYOS OF THE PLAICE (PLEURONECTES-PLATESSA)

      Journal of Fish Biology
    98. HAMMERSCHMIDT M; NUSSLEINVOLHARD C
      THE EXPRESSION OF A ZEBRAFISH GENE HOMOLOGOUS TO DROSOPHILA-SNAIL SUGGESTS A CONSERVED FUNCTION IN INVERTEBRATE AND VERTEBRATE GASTRULATION

      Development
    99. THISSE C; THISSE B; SCHILLING TF; POSTLETHWAIT JH
      STRUCTURE OF THE ZEBRAFISH SNAIL1 GENE AND ITS EXPRESSION IN WILD-TYPE, SPADETAIL AND NO TAIL MUTANT EMBRYOS

      Development
    100. POWER MA; TAM PPL
      ONSET OF GASTRULATION, MORPHOGENESIS AND SOMITOGENESIS IN MOUSE EMBRYOS DISPLAYING COMPENSATORY GROWTH

      Anatomy and embryology


ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 03/08/20 alle ore 12:34:38