University of Cambridge-ko ikertzaileekin lankidetzan egindako argitalpenak (27)

2023

  1. The little skate genome and the evolutionary emergence of wing-like fins

    Nature, Vol. 616, Núm. 7957, pp. 495-503

2018

  1. Amphioxus functional genomics and the origins of vertebrate gene regulation

    Nature, Vol. 564, Núm. 7734, pp. 64-70

2013

  1. Antagonism Versus Cooperativity with TALE Cofactors at the Base of the Functional Diversification of Hox Protein Function

    PLoS Genetics, Vol. 9, Núm. 2

2010

  1. An efficient approach to isolate STAT regulated enhancers uncovers STAT92E fundamental role in Drosophila tracheal development

    Developmental Biology, Vol. 340, Núm. 2, pp. 571-582

2006

  1. Compartmentalisation of Rho regulators directs cell invagination during tissue morphogenesis

    Development, Vol. 133, Núm. 21, pp. 4257-4267

  2. Coordinated Control of Cell Adhesion, Polarity, and Cytoskeleton Underlies Hox-Induced Organogenesis in Drosophila

    Current Biology, Vol. 16, Núm. 22, pp. 2206-2216

  3. The RNA binding protein Zfp36l1 is required for normal vascularisation and post-transcriptionally regulates VEGF expression

    Developmental Dynamics, Vol. 235, Núm. 11, pp. 3144-3155

2005

  1. Characterisation of Upd2, a Drosophila JAK/STAT pathway ligand

    Developmental Biology, Vol. 288, Núm. 2, pp. 420-433

  2. Crossveinless-c is a RhoGAP required for actin reorganization during morphogenesis

    Development, Vol. 132, Núm. 10, pp. 2389-2400

  3. Hox-controlled reorganisation of intrasegmental patterning cues underlies Drosophila posterior spiracle organogenesis

    Development, Vol. 132, Núm. 13, pp. 3093-3102

  4. Opposing roles for Drosophila JAK/STAT signalling during cellular proliferation

    Oncogene, Vol. 24, Núm. 15, pp. 2503-2511

  5. Significance of the temporal modulation of Hox gene expression on segment morphology

    Key Experiments in Practical Developmental Biology (Cambridge University Press), pp. 255-268

2003

  1. Beyond homeosis - HOX function in morphogenesis and organogenesis

    Differentiation, Vol. 71, Núm. 8, pp. 461-476

  2. Novel level of signalling control in the JAK/STAT pathway revealed by in situ visualization of protein-protein interaction during Drosophila development

    Development, Vol. 130, Núm. 14, pp. 3077-3084

2002

  1. The fertile field of Drosophila JAK/STAT signalling

    Current Biology, Vol. 12, Núm. 16

2001

  1. Identification of the first invertebrate interleukin JAK/STAT receptor, the Drosophila gene domeless

    Current Biology, Vol. 11, Núm. 21, pp. 1700-1705

2000

  1. Analysis of vertebrate SCL loci identifies conserved enhancers

    Nature Biotechnology, Vol. 18, Núm. 2, pp. 181-186

  2. Drosophila grain encodes a GATA transcription factor required for cell rearrangements during morphogenesis

    Development, Vol. 127, Núm. 22, pp. 4867-4876

1999

  1. An SCL 3' enhancer targets developing endothelium together with embryonic and adult haematopoietic progenitors

    Development, Vol. 126, Núm. 17, pp. 3891-3904

  2. Distinct 5' SCL enhancers direct transcription to developing brain, spinal cord, and endothelium: Neural expression is mediated by GATA factor binding sites

    Developmental Biology, Vol. 209, Núm. 1, pp. 128-142