2019 (1)
Structure, activity and function of a singing CPG interneuron controlling cricket species-specific acoustic signaling. Jacob, P.; and Hedwig, B. Journal of Neuroscience, 39(1): 96-111. 2019.
Structure, activity and function of a singing CPG interneuron controlling cricket species-specific acoustic signaling [link]Paper   doi   bibtex
  2018 (4)
Dendritic Ca2+ dynamics and multimodal processing in a cricket antennal interneuron. Bayley, T.; and Hedwig, B. Journal of Neurophysiology, 120(3): 910-919. 2018.
Dendritic Ca2+ dynamics and multimodal processing in a cricket antennal interneuron [link]Paper   doi   bibtex
Reactive oxygen species regulate activity- dependent neuronal plasticity in Drosophila. Oswald, M.; Brooks, P.; Zwart, M.; Mukherjee, A.; West, R.; Giachello, C.; Morarach, K.; Baines, R.; Sweeney, S.; and Landgraf, M. eLife, 7. 2018.
Reactive oxygen species regulate activity- dependent neuronal plasticity in Drosophila [link]Paper   doi   bibtex
Evidence for the temporal regulation of insect segmentation by a conserved sequence of transcription factors. Clark, E.; and Peel, A. Development (Cambridge), 145(10). 2018.
Evidence for the temporal regulation of insect segmentation by a conserved sequence of transcription factors [link]Paper   doi   bibtex
γ-TuRC Heterogeneity Revealed by Analysis of Mozart1. Tovey, C.; Tubman, C.; Hamrud, E.; Zhu, Z.; Dyas, A.; Butterfield, A.; Fyfe, A.; Johnson, E.; and Conduit, P. Current Biology, 28(14): 2314-2323.e6. 2018.
γ-TuRC Heterogeneity Revealed by Analysis of Mozart1 [link]Paper   doi   bibtex
  2017 (6)
Electrophoresis of polar fluorescent tracers through the nerve sheath labels neuronal populations for anatomical and functional imaging. Isaacson, M.; and Hedwig, B. Scientific Reports, 7. 2017.
Electrophoresis of polar fluorescent tracers through the nerve sheath labels neuronal populations for anatomical and functional imaging [link]Paper   doi   bibtex
Active diffusion and advection in Drosophila oocytes result from the interplay of actin and microtubules. Drechsler, M.; Giavazzi, F.; Cerbino, R.; and Palacios, I. Nature Communications, 8(1). 2017.
Active diffusion and advection in Drosophila oocytes result from the interplay of actin and microtubules [link]Paper   doi   bibtex
Translational control of gurken mRNA in Drosophila development. Derrick, C.; and Weil, T. Cell Cycle, 16(1): 23-32. 2017.
Translational control of gurken mRNA in Drosophila development [link]Paper   doi   bibtex
Formation and subdivision of the head field in the centipede Strigamia maritima, as revealed by the expression of head gap gene orthologues and hedgehog dynamics. Hunnekuhl, V.; and Akam, M. EvoDevo, 8(1). 2017.
Formation and subdivision of the head field in the centipede Strigamia maritima, as revealed by the expression of head gap gene orthologues and hedgehog dynamics [link]Paper   doi   bibtex
Dynamic patterning by the Drosophila pair-rule network reconciles long-germ and short-germ segmentation. Clark, E. PLoS Biology, 15(9). 2017.
Dynamic patterning by the Drosophila pair-rule network reconciles long-germ and short-germ segmentation [link]Paper   doi   bibtex
Non-coding Y RNAs associate with early replicating euchromatin in concordance with the origin recognition complex. Kheir, E.; and Krude, T. Journal of Cell Science, 130(7): 1239-1250. 2017.
Non-coding Y RNAs associate with early replicating euchromatin in concordance with the origin recognition complex [link]Paper   doi   bibtex
  2016 (8)
Planar cell polarity: The Dachsous/Fat system contributes differently to the embryonic and larval stages of Drosophila. Saavedra, P.; Brittle, A.; Palacios, I.; Strutt, D.; JoséCasal; and Lawrence, P. Biology Open, 5(4): 397-408. 2016.
Planar cell polarity: The Dachsous/Fat system contributes differently to the embryonic and larval stages of Drosophila [link]Paper   doi   bibtex
α-spectrin and integrins act together to regulate actomyosin and columnarization, and to maintain a monolayered follicular epithelium. Ng, B.; Selvaraj, G.; Mateos, C.; Grosheva, I.; Alvarez-Garcia, I.; Martın-Bermudo, M.; and Palacios, I. Development (Cambridge), 143(8): 1388-1399. 2016.
α-spectrin and integrins act together to regulate actomyosin and columnarization, and to maintain a monolayered follicular epithelium [link]Paper   doi   bibtex
A new R package and web application for detecting bilateral asymmetry in parasitic infections. Wayland, M.; and Chubb, J. Folia Parasitologica, 63. 2016.
A new R package and web application for detecting bilateral asymmetry in parasitic infections [link]Paper   doi   bibtex
Imaging calcium in drosophila at egg activation. Derrick, C.; York-Andersen, A.; and Weil, T. Journal of Visualized Experiments, 2016(114). 2016.
Imaging calcium in drosophila at egg activation [link]Paper   doi   bibtex
Odd-paired controls frequency doubling in Drosophila segmentation by altering the pair-rule gene regulatory network. Clark, E.; and Akam, M. eLife, 5(AUGUST). 2016.
Odd-paired controls frequency doubling in Drosophila segmentation by altering the pair-rule gene regulatory network [link]Paper   doi   bibtex
Selective Inhibition Mediates the Sequential Recruitment of Motor Pools. Zwart, M.; Pulver, S.; Truman, J.; Fushiki, A.; Fetter, R.; Cardona, A.; and Landgraf, M. Neuron, 91(3): 615-628. 2016.
Selective Inhibition Mediates the Sequential Recruitment of Motor Pools [link]Paper   doi   bibtex
Drosophila astrocytes cover specific territories of the CNS neuropil and are instructed to differentiate by Prospero, a key effector of Notch. Peco, E.; Davla, S.; Camp, D.; Stacey, S.; Landgraf, M.; and van Meyel, D. Development (Cambridge), 143(7): 1170-1181. 2016.
Drosophila astrocytes cover specific territories of the CNS neuropil and are instructed to differentiate by Prospero, a key effector of Notch [link]Paper   doi   bibtex
Genome-wide identification and characterisation of human DNA replication origins by initiation site sequencing (ini-seq). Langley, A.; Gräf, S.; Smith, J.; and Krude, T. Nucleic Acids Research, 44(21): 10230-10247. 2016.
Genome-wide identification and characterisation of human DNA replication origins by initiation site sequencing (ini-seq) [link]Paper   doi   bibtex
  2015 (7)
Fast imaging of live organisms with sculpted light sheets. Chmielewski, A.; Kyrsting, A.; Mahou, P.; Wayland, M.; Muresan, L.; Evers, J.; and Kaminski, C. Scientific Reports, 5. 2015.
Fast imaging of live organisms with sculpted light sheets [link]Paper   doi   bibtex
A single and rapid calcium wave at egg activation in Drosophila. York-Andersen, A.; Parton, R.; Bi, C.; Bromley, C.; Davis, I.; and Weil, T. Biology Open, 4(4): 553-560. 2015.
A single and rapid calcium wave at egg activation in Drosophila [link]Paper   doi   bibtex
Regions within a single epidermal cell of drosophila can be planar polarised independently. Rovira, M.; Saavedra, P.; Casal, J.; and Lawrence, P. eLife, 2015(4): 1-22. 2015.
Regions within a single epidermal cell of drosophila can be planar polarised independently [link]Paper   doi   bibtex
MicroRNA-encoded behavior in Drosophila. Picao-Osorio, J.; Johnston, J.; Landgraf, M.; Berni, J.; and Alonso, C. Science, 350(6262): 815-820. 2015.
MicroRNA-encoded behavior in Drosophila [link]Paper   doi   bibtex
Development of connectivity in a motoneuronal network in Drosophila larvae. Couton, L.; Mauss, A.; Yunusov, T.; Diegelmann, S.; Evers, J.; and Landgraf, M. Current Biology, 25(5): 568-576. 2015.
Development of connectivity in a motoneuronal network in Drosophila larvae [link]Paper   doi   bibtex
Plug-and-play genetic access to drosophila cell types using exchangeable exon cassettes. Diao, F.; Ironfield, H.; Luan, H.; Diao, F.; Shropshire, W.; Ewer, J.; Marr, E.; Potter, C.; Landgraf, M.; and White, B. Cell Reports, 10(8): 1410-1421. 2015.
Plug-and-play genetic access to drosophila cell types using exchangeable exon cassettes [link]Paper   doi   bibtex
Non-coding stem-bulge RNAs are required for cell proliferation and embryonic development in C. elegans. Kowalski, M.; Baylis, H.; and Krude, T. Journal of Cell Science, 128(11): 2118-2129. 2015.
Non-coding stem-bulge RNAs are required for cell proliferation and embryonic development in C. elegans [link]Paper   doi   bibtex
  2014 (14)
The auto-inhibitory domain and ATP-independent microtubulebinding region of Kinesin heavy chain are major functional domains for transport in the Drosophila germline. Williams, L.; Ganguly, S.; Loiseau, P.; Ng, B.; and Palacios, I. Development (Cambridge), 141(1): 176-186. 2014.
The auto-inhibitory domain and ATP-independent microtubulebinding region of Kinesin heavy chain are major functional domains for transport in the Drosophila germline [link]Paper   doi   bibtex
Plasticity of both planar cell polarity and cell identity during the development of Drosophila. Saavedra, P.; Vincent, J.; Palacios, I.; Lawrence, P.; and Casal, J. eLife, 2014(3). 2014.
Plasticity of both planar cell polarity and cell identity during the development of Drosophila [link]Paper   doi   bibtex
Integrins regulate epithelial cell differentiation by modulating Notch activity. Jesús Gómez-Lamarca, M.; Cobreros-Reguera, L.; Ibáñez-Jiménez, B.; Palacios, I.; and Martín-Bermudo, M. Journal of Cell Science, 127(21): 4667-4678. 2014.
Integrins regulate epithelial cell differentiation by modulating Notch activity [link]Paper   doi   bibtex
Spotting the differences: Probing host/microbiota interactions with a dedicated software tool for the analysis of faecal outputs in Drosophila. Wayland, M.; Defaye, A.; Rocha, J.; Jayaram, S.; Royet, J.; Miguel-Aliaga, I.; Leulier, F.; and Cognigni, P. Journal of Insect Physiology, 69(C): 126-135. 2014.
Spotting the differences: Probing host/microbiota interactions with a dedicated software tool for the analysis of faecal outputs in Drosophila [link]Paper   doi   bibtex
Malpighian tubule development in the red flour beetle (Tribolium castaneum). King, B.; and Denholm, B. Arthropod Structure and Development, 43(6): 605-613. 2014.
Malpighian tubule development in the red flour beetle (Tribolium castaneum) [link]Paper   doi   bibtex
Epidermal Growth Factor Signalling Controls Myosin II Planar Polarity to Orchestrate Convergent Extension Movements during Drosophila Tubulogenesis. Saxena, A.; Denholm, B.; Bunt, S.; Bischoff, M.; VijayRaghavan, K.; and Skaer, H. PLoS Biology, 12(12). 2014.
Epidermal Growth Factor Signalling Controls Myosin II Planar Polarity to Orchestrate Convergent Extension Movements during Drosophila Tubulogenesis [link]Paper   doi   bibtex
mRNA localization in the Drosophila germline. Weil, T. RNA Biology, 11(8): 1010-1018. 2014.
mRNA localization in the Drosophila germline [link]Paper   doi   bibtex
An anterior medial cell population with an apical-organ-like transcriptional profile that pioneers the central nervous system in the centipede Strigamia maritima. Hunnekuhl, V.; and Akam, M. Developmental Biology, 396(1): 136-149. 2014.
An anterior medial cell population with an apical-organ-like transcriptional profile that pioneers the central nervous system in the centipede Strigamia maritima [link]Paper   doi   bibtex
Germ cells of the centipede Strigamia maritima are specified early in embryonic development. Green, J.; and Akam, M. Developmental Biology, 392(2): 419-430. 2014.
Germ cells of the centipede Strigamia maritima are specified early in embryonic development [link]Paper   doi   bibtex
The Hox genes Ultrabithorax and abdominal-A specify three different types of abdominalappendage in the springtail Orchesella cincta (Collembola). Konopova, B.; and Akam, M. EvoDevo, 5(1). 2014.
The Hox genes Ultrabithorax and abdominal-A specify three different types of abdominalappendage in the springtail Orchesella cincta (Collembola) [link]Paper   doi   bibtex
The conserved transmembrane proteoglycan Perdido/Kon-tiki is essential for myofibrillogenesis and sarcomeric structure in Drosophila. Pérez-Moreno, J.; Bischoff, M.; Martín-Bermudo, M.; and Estrada, B. Journal of Cell Science, 127(14): 3162-3173. 2014.
The conserved transmembrane proteoglycan Perdido/Kon-tiki is essential for myofibrillogenesis and sarcomeric structure in Drosophila [link]Paper   doi   bibtex
Exosomes as Hedgehog carriers in cytoneme-mediated transport and secretion. Gradilla, A.; González, E.; Seijo, I.; Andrés, G.; Bischoff, M.; González-Mendez, L.; Sánchez, V.; Callejo, A.; Ibáñez, C.; Guerra, M.; Ortigão-Farias, J.; Sutherland, J.; González, M.; Barrio, R.; Falcón-Pérez, J.; and Guerrero, I. Nature Communications, 5. 2014.
Exosomes as Hedgehog carriers in cytoneme-mediated transport and secretion [link]Paper   doi   bibtex
MicroRNA-8 promotes robust motor axon targeting by coordinate regulation of cell adhesion molecules during synapse development. Lu, C.; Zhai, B.; Mauss, A.; Landgraf, M.; Gygi, S.; and Van Vactor, D. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 369(1652). 2014.
MicroRNA-8 promotes robust motor axon targeting by coordinate regulation of cell adhesion molecules during synapse development [link]Paper   doi   bibtex
Nucleotide Contributions to the Structural Integrity and DNA Replication Initiation Activity of Noncoding y RNA. Wang, I.; Kowalski, M.; Langley, A.; Rodriguez, R.; Balasubramanian, S.; Hsu, S.; and Krude, T. Biochemistry, 53(37): 5848-5863. 2014.
Nucleotide Contributions to the Structural Integrity and DNA Replication Initiation Activity of Noncoding y RNA [link]Paper   doi   bibtex
  2013 (8)
Nonsense-mediated mRNA decay: From mechanistic insights to impacts on human health. Palacios, I. Briefings in Functional Genomics, 12(1): 25-36. 2013.
Nonsense-mediated mRNA decay: From mechanistic insights to impacts on human health [link]Paper   doi   bibtex
The tiptop/teashirt genes regulate cell differentiation and renal physiology in Drosophila. Denholm, B.; Hu, N.; Fauquier, T.; Caubit, X.; Fasano, L.; and Skaer, H. Development (Cambridge), 140(5): 1100-1110. 2013.
The tiptop/teashirt genes regulate cell differentiation and renal physiology in Drosophila [link]Paper   doi   bibtex
Tip Cells Act as Dynamic Cellular Anchors in the Morphogenesis of Looped Renal Tubules in Drosophila. Weavers, H.; and Skaer, H. Developmental Cell, 27(3): 331-344. 2013.
Tip Cells Act as Dynamic Cellular Anchors in the Morphogenesis of Looped Renal Tubules in Drosophila [link]Paper   doi   bibtex
Evolution of the pair rule gene network: Insights from a centipede. Green, J.; and Akam, M. Developmental Biology, 382(1): 235-245. 2013.
Evolution of the pair rule gene network: Insights from a centipede [link]Paper   doi   bibtex
Cell and tissue dynamics during Tribolium embryogenesis revealed by versatile fluorescence labeling approaches. Benton, M.; Akam, M.; and Pavlopoulos, A. Development (Cambridge), 140(15): 3210-3220. 2013.
Cell and tissue dynamics during Tribolium embryogenesis revealed by versatile fluorescence labeling approaches [link]Paper   doi   bibtex
Cytonemes are required for the establishment of a normal Hedgehog morphogen gradient in Drosophila epithelia. Bischoff, M.; Gradilla, A.; Seijo, I.; Andrés, G.; Rodríguez-Navas, C.; González-Méndez, L.; and Guerrero, I. Nature Cell Biology, 15(11): 1269-1281. 2013.
Cytonemes are required for the establishment of a normal Hedgehog morphogen gradient in Drosophila epithelia [link]Paper   doi   bibtex
Dendritic growth gated by a steroid hormone receptor underlies increases in activity in the developing Drosophila locomotor system. Zwart, M.; Randlett, O.; Evers, J.; and Landgraf, M. Proceedings of the National Academy of Sciences of the United States of America, 110(40): E3878-E3887. 2013.
Dendritic growth gated by a steroid hormone receptor underlies increases in activity in the developing Drosophila locomotor system [link]Paper   doi   bibtex
Sensory Neuron-Derived Eph Regulates Glomerular Arbors and Modulatory Function of a Central Serotonergic Neuron. Singh, A.; Das, R.; Rao, G.; Aggarwal, A.; Diegelmann, S.; Evers, J.; Karandikar, H.; Landgraf, M.; Rodrigues, V.; and VijayRaghavan, K. PLoS Genetics, 9(4). 2013.
Sensory Neuron-Derived Eph Regulates Glomerular Arbors and Modulatory Function of a Central Serotonergic Neuron [link]Paper   doi   bibtex
  2012 (7)
Calling song recognition in female crickets: Temporal tuning of identified brain neurons matches behavior. Kostarakos, K.; and Hedwig, B. Journal of Neuroscience, 32(28): 9601-9612. 2012.
Calling song recognition in female crickets: Temporal tuning of identified brain neurons matches behavior [link]Paper   doi   bibtex
Cytoplasmic streaming in Drosophila oocytes varies with kinesin activity and correlates with the microtubule cytoskeleton architecture. Ganguly, S.; Williams, L.; Palacios, I.; and Goldstein, R. Proceedings of the National Academy of Sciences of the United States of America, 109(38): 15109-15114. 2012.
Cytoplasmic streaming in Drosophila oocytes varies with kinesin activity and correlates with the microtubule cytoskeleton architecture [link]Paper   doi   bibtex
Remote control of renal physiology by the intestinal neuropeptide pigment-dispersing factor in Drosophila. Talsma, A.; Christov, C.; Terriente-Felix, A.; Linneweber, G.; Perea, D.; Wayland, M.; Shafer, O.; and Miguel-Aliaga, I. Proceedings of the National Academy of Sciences of the United States of America, 109(30): 12177-12182. 2012.
Remote control of renal physiology by the intestinal neuropeptide pigment-dispersing factor in Drosophila [link]Paper   doi   bibtex
The kinase Sgg modulates temporal development of macrochaetes in Drosophila by phosphorylation of Scute and Pannier. Yang, M.; Hatton-Ellis, E.; and Simpson, P. Development, 139(2): 325-334. 2012.
The kinase Sgg modulates temporal development of macrochaetes in Drosophila by phosphorylation of Scute and Pannier [link]Paper   doi   bibtex
Lamellipodia-based migrations of larval epithelial cells are required for normal closure of the adult epidermis of Drosophila. Bischoff, M. Developmental Biology, 363(1): 179-190. 2012.
Lamellipodia-based migrations of larval epithelial cells are required for normal closure of the adult epidermis of Drosophila [link]Paper   doi   bibtex
The muscle pattern of the Drosophila abdomen depends on a subdivision of the anterior compartment of each segment. Krzemień, J.; Fabre, C.; Casal, J.; and Lawrence, P. Development, 139(1): 75-83. 2012.
The muscle pattern of the Drosophila abdomen depends on a subdivision of the anterior compartment of each segment [link]Paper   doi   bibtex
Ovine PrP transgenic Drosophila show reduced locomotor activity and decreased survival. Thackray, A.; Muhammad, F.; Zhang, C.; Di, Y.; Jahn, T.; Landgraf, M.; Crowther, D.; Evers, J.; and Bujdoso, R. Biochemical Journal, 444(3): 487-495. 2012.
Ovine PrP transgenic Drosophila show reduced locomotor activity and decreased survival [link]Paper   doi   bibtex
  2011 (4)
Drosophila Upf1 and Upf2 loss of function inhibits cell growth and causes animal death in a Upf3-independent manner. Avery, P.; Vicente-Crespo, M.; Francis, D.; Nashchekina, O.; Alonso, C.; and Palacios, I. RNA, 17(4): 624-638. 2011.
Drosophila Upf1 and Upf2 loss of function inhibits cell growth and causes animal death in a Upf3-independent manner [link]Paper   doi   bibtex
Characterisation of the Drosophila procollagen lysyl hydroxylase, dPlod. Bunt, S.; Denholm, B.; and Skaer, H. Gene Expression Patterns, 11(1-2): 72-78. 2011.
Characterisation of the Drosophila procollagen lysyl hydroxylase, dPlod [link]Paper   doi   bibtex
Hox gene Ultrabithorax regulates distinct sets of target genes at successive stages of Drosophila haltere morphogenesis. Pavlopoulos, A.; and Akam, M. Proceedings of the National Academy of Sciences of the United States of America, 108(7): 2855-2860. 2011.
Hox gene Ultrabithorax regulates distinct sets of target genes at successive stages of Drosophila haltere morphogenesis [link]Paper   doi   bibtex
Dynamic interaction of Y RNAs with chromatin and initiation proteins during human DNA replication. Zhang, A.; Langley, A.; Christov, C.; Kheir, E.; Shafee, T.; Gardiner, T.; and Krude, T. Journal of Cell Science, 124(12): 2058-2069. 2011.
Dynamic interaction of Y RNAs with chromatin and initiation proteins during human DNA replication [link]Paper   doi   bibtex
  2010 (10)
Drosophila PAT1 is required for Kinesin-1 to transport cargo and to maximize its motility. Loiseau, P.; Davies, T.; Williams, L.; Mishima, M.; and Palacios, I. Development, 137(16): 2763-2772. 2010.
Drosophila PAT1 is required for Kinesin-1 to transport cargo and to maximize its motility [link]Paper   doi   bibtex
Nonsense-mediated mRNA decay and development: Shoot the messenger to survive?. Vicente-Crespo, M.; and Palacios, I. Biochemical Society Transactions, 38(6): 1500-1505. 2010.
Nonsense-mediated mRNA decay and development: Shoot the messenger to survive? [link]Paper   doi   bibtex
An arthropod cis-regulatory element functioning in sensory organ precursor development dates back to the Cambrian. Ayyar, S.; Negre, B.; Simpson, P.; and Stollewerk, A. BMC Biology, 8. 2010.
An arthropod cis-regulatory element functioning in sensory organ precursor development dates back to the Cambrian [link]Paper   doi   bibtex
Hemocyte-secreted type IV collagen enhances BMP signaling to guide renal tubule morphogenesis in Drosophila. Bunt, S.; Hooley, C.; Hu, N.; Scahill, C.; Weavers, H.; and Skaer, H. Developmental Cell, 19(2): 296-306. 2010.
Hemocyte-secreted type IV collagen enhances BMP signaling to guide renal tubule morphogenesis in Drosophila [link]Paper   doi   bibtex
Mesenchymal-to-epithelial transition of intercalating cells in Drosophila renal tubules depends on polarity cues from epithelial neighbours. Campbell, K.; Casanova, J.; and Skaer, H. Mechanisms of Development, 127(7-8): 345-357. 2010.
Mesenchymal-to-epithelial transition of intercalating cells in Drosophila renal tubules depends on polarity cues from epithelial neighbours [link]Paper   doi   bibtex
Mechanosensilla in the adult abdomen of Drosophila: Engrailed and slit help to corral the peripheral sensory axons into segmental bundles. Fabre, C.; Casal, J.; and Lawrence, P. Development, 137(17): 2885-2894. 2010.
Mechanosensilla in the adult abdomen of Drosophila: Engrailed and slit help to corral the peripheral sensory axons into segmental bundles [link]Paper   doi   bibtex
Planar cell polarity: The orientation of larval denticles in Drosophila appears to depend on gradients of Dachsous and Fat. Repiso, A.; Saavedra, P.; Casal, J.; and Lawrence, P. Development, 137(20): 3411-3415. 2010.
Planar cell polarity: The orientation of larval denticles in Drosophila appears to depend on gradients of Dachsous and Fat [link]Paper   doi   bibtex
Point scanning confocal microscopy facilitates 3D human hair follicle imaging in tissue sections. Kloepper, J.; Bíró, T.; Paus, R.; and Cseresnyés, Z. Experimental Dermatology, 19(7): 691-694. 2010.
Point scanning confocal microscopy facilitates 3D human hair follicle imaging in tissue sections [link]Paper   doi   bibtex
Genetically encoded dendritic marker sheds light on neuronal connectivity in Drosophila. Nicolaï, L.; Ramaekers, A.; Raemaekers, T.; Drozdzecki, A.; Mauss, A.; Yan, J.; Landgraf, M.; Annaert, W.; and Hassan, B. Proceedings of the National Academy of Sciences of the United States of America, 107(47): 20553-20558. 2010.
Genetically encoded dendritic marker sheds light on neuronal connectivity in Drosophila [link]Paper   doi   bibtex
Ribonucleoprotein particles containing non-coding Y RNAs, Ro60, la and nucleolin are not required for Y RNA function in DNA replication. Langley, A.; Chambers, H.; Christov, C.; and Krude, T. PLoS ONE, 5(10). 2010.
Ribonucleoprotein particles containing non-coding Y RNAs, Ro60, la and nucleolin are not required for Y RNA function in DNA replication [link]Paper   doi   bibtex
  2009 (6)
The insect nephrocyte is a podocyte-like cell with a filtration slit diaphragm. Weavers, H.; Prieto-Sánchez, S.; Grawe, F.; Garcia-López, A.; Artero, R.; Wilsch-Bräuninger, M.; Ruiz-Gómez, M.; Skaer, H.; and Denholm, B. Nature, 457(7227): 322-326. 2009.
The insect nephrocyte is a podocyte-like cell with a filtration slit diaphragm [link]Paper   doi   bibtex
Crumbs stabilises epithelial polarity during tissue remodelling. Campbell, K.; Knust, E.; and Skaer, H. Journal of Cell Science, 122(15): 2604-2612. 2009.
Crumbs stabilises epithelial polarity during tissue remodelling [link]Paper   doi   bibtex
Cell rearrangements, cell divisions and cell death in a migrating epithelial sheet in the abdomen of Drosophila. Bischoff, M.; and Cseresnyés, Z. Development, 136(14): 2403-2411. 2009.
Cell rearrangements, cell divisions and cell death in a migrating epithelial sheet in the abdomen of Drosophila [link]Paper   doi   bibtex
Analysis of replication factories in human cells by super-resolution light microscopy. Cseresnyes, Z.; Schwarz, U.; and Green, C. BMC cell biology, 10: 88. 2009.
Analysis of replication factories in human cells by super-resolution light microscopy. [link]Paper   doi   bibtex
Midline signalling systems direct the formation of a neural map by dendritic targeting in the Drosophila motor system. Mauss, A.; Tripodi, M.; Evers, J.; and Landgraf, M. PLoS Biology, 7(9). 2009.
Midline signalling systems direct the formation of a neural map by dendritic targeting in the Drosophila motor system [link]Paper   doi   bibtex
Y RNA functions at the initiation step of mammalian chromosomal DNA replication. Krude, T.; Christov, C.; Hyrien, O.; and Marheineke, K. Journal of Cell Science, 122(16): 2836-2845. 2009.
Y RNA functions at the initiation step of mammalian chromosomal DNA replication [link]Paper   doi   bibtex
  2008 (5)
Redundant mechanisms mediate bristle patterning on the Drosophila thorax. Usui, K.; Goldstone, C.; Gibert, J.; and Simpson, P. Proceedings of the National Academy of Sciences of the United States of America, 105(51): 20112-20117. 2008.
Redundant mechanisms mediate bristle patterning on the Drosophila thorax [link]Paper   doi   bibtex
The abdomen of Drosophila: Does planar cell polarity orient the neurons of mechanosensory bristles?. Fabre, C.; Casal, J.; and Lawrence, P. Neural Development, 3(1). 2008.
The abdomen of Drosophila: Does planar cell polarity orient the neurons of mechanosensory bristles? [link]Paper   doi   bibtex
Structural homeostasis: Compensatory adjustments of dendritic arbor geometry in response to variations of synaptic input. Tripodi, M.; Evers, J.; Mauss, A.; Bate, M.; and Landgraf, M. PLoS Biology, 6(10): 2172-2187. 2008.
Structural homeostasis: Compensatory adjustments of dendritic arbor geometry in response to variations of synaptic input [link]Paper   doi   bibtex
Identification of genes influencing dendrite morphogenesis in developing peripheral sensory and central motor neurons. Ou, Y.; Chwalla, B.; Landgraf, M.; and Van Meyel, D. Neural Development, 3(1). 2008.
Identification of genes influencing dendrite morphogenesis in developing peripheral sensory and central motor neurons [link]Paper   doi   bibtex
Gateway cloning vectors for the LexA-based binary expression system in drosophila. Diegelmann, S.; Bate, M.; and Landgraf, M. Fly, 2(4): 236-239. 2008.
Gateway cloning vectors for the LexA-based binary expression system in drosophila [link]Paper   doi   bibtex
  2007 (3)
The Salvador-Warts-Hippo Pathway Is Required for Epithelial Proliferation and Axis Specification in Drosophila. Meignin, C.; Alvarez-Garcia, I.; Davis, I.; and Palacios, I. Current Biology, 17(21): 1871-1878. 2007.
The Salvador-Warts-Hippo Pathway Is Required for Epithelial Proliferation and Axis Specification in Drosophila [link]Paper   doi   bibtex
NF-κB/rel-mediated regulation of the neural fate in Drosophila. Ayyar, S.; Pistillo, D.; Calleja, M.; Brookfield, A.; Gittins, K.; Goldstone, C.; and Simpson, P. PLoS ONE, 2(11). 2007.
NF-κB/rel-mediated regulation of the neural fate in Drosophila [link]Paper   doi   bibtex
Genetic regulation of patterned tubular branching in Drosophila. Hatton-Ellis, E.; Ainsworth, C.; Sushama, Y.; Wan, S.; VijayRaghavan, K.; and Skaer, H. Proceedings of the National Academy of Sciences of the United States of America, 104(1): 169-174. 2007.
Genetic regulation of patterned tubular branching in Drosophila [link]Paper   doi   bibtex
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