1 – Structure of the Integument
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[1] M. Locke. The structure of an epidermal cell during the development of the protein epicuticle and the uptake of molting fluid in an insect , 1969 .
[2] W. Kenchington,et al. THE CHITIN SYSTEM , 1973 .
[3] L. Gilbert,et al. Immunochemical evidence for the transport of haemolymph protein into the cuticle of Manduca sexta. , 1973, Journal of insect physiology.
[4] V. Wigglesworth. Structural lipids in the insect cuticle and the function of the oenocytes. , 1970, Tissue & cell.
[5] L. H. Johnson,et al. Estimation of the composition of the cuticular wax of the Mormon cricket, Anabrus simplex Hald. , 1960 .
[6] V. Wigglesworth. The structure and deposition of the cuticle in the adult mealworm, Tenebrio molitor L. (Coleoptera). , 1948, The Quarterly journal of microscopical science.
[7] S. G. Smith,et al. Amino-Acid Composition of the Silk of Chrysopa Egg-stalks , 1957, Nature.
[8] R. Hackman,et al. Some conformational studies of larval cuticular protein from Calliphora vicina , 1979 .
[9] A. Gilby,et al. The composition of the empty puparia of a blowfly. , 1970, Journal of insect physiology.
[10] P. Huie,et al. Apolysis and the turnover of plasma membrane plaques during cuticle formation in an insect. , 1979, Tissue & cell.
[11] J. Ryerse,et al. Ecdysterone-mediated cuticle deposition and the control of growth in insect tracheae , 1978 .
[12] A. Richards,et al. The peritrophic membranes of insects. , 1977, Annual review of entomology.
[13] G. Fraenkel,et al. A study of the physical and chemical properties of the insect cuticle , 1940, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[14] B. Goodrich. Cuticular lipids of adults and puparia of the Australian sheep blowfly Lucilia cuprina (Wied.). , 1970, Journal of lipid research.
[15] J. Delachambre,et al. Total and epidermal cyclic AMP levels related to the variations of ecdysteroids and bursicon during the metamorphosis of the mealworm Tenebrio molitor L. , 1979 .
[16] A. Huxley,et al. On the structure of resilin , 1965 .
[17] V. Wigglesworth. Incorporation of lipid into the epicuticle of Rhodnius (Hemiptera). , 1975, Journal of cell science.
[18] D. Moran,et al. Form and Role of Deformation in Excitation of an Insect Mechanoreceptor , 1973, Nature.
[19] S. Kimura. The chitinase system in the cuticle of the silkworm Bombyx mori , 1976 .
[20] Hitoshi Sato,et al. Structural proteins in the egg envelopes of the mealworm beetle, Tenebrio molitor , 1975 .
[21] M Locke,et al. The development of patterns in the integument of insects. , 1967, Advances in morphogenesis.
[22] K. M. Rudall. Conformation in Chitin–Protein Complexes , 1967 .
[23] S. Malek,et al. The cuticle of the cockroach Periplaneta americana. III. The hardening of the cuticle: impregnation preparatory to phenolic tanning , 1955, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[24] N. Lane,et al. Unusual structural features and assembly of gap and pleated septate junctions in embryonic cockroach CNS. , 1985, Journal of cell science.
[25] H. R. Hepburn,et al. On the structure and mechanical properties of beetle shells , 1973 .
[26] A. Gilby. Chemical Methods (Lipids) , 1980 .
[27] H. R. Hepburn,et al. Materials Testing of Arthropod Cuticle Preparations , 1980 .
[28] J. Passonneau,et al. THE MOULTING FLUID OF THE CECROPIA SILKWORM , 1953 .
[29] T. Weis-Fogh. Molecular interpretation of the elasticity of resilin, a rubber-like protein , 1961 .
[30] M. Locke. PORE CANALS AND RELATED STRUCTURES IN INSECT CUTICLE , 1961, The Journal of biophysical and biochemical cytology.
[31] G. Fraenkel,et al. Calcification, tanning, and the rôle of ecdyson in the formation of the puparium of the facefly, Musca automnalis , 1967 .
[32] J. Vincent. Effects of bursicon on cuticular properties in Locusta migratoria migratorioides , 1971 .
[33] R H Hackman,et al. Expanding abdominal cuticle in the bug Rhodnius and the tick Boophilus. , 1975, Journal of insect physiology.
[34] J. Pringle. The gyroscopic mechanism of the halteres of Diptera , 1948, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.
[35] L. Gilbert,et al. Haemolymph ecdysteroid levels and cellular events in the intermoult/moult sequence of Calpodes ethlius. , 1980 .
[36] E. Atkins,et al. “Cross-β” conformation in proteins☆ , 1968 .
[37] H. Bennet-Clark. The relation between epicuticular folding and the subsequent size of an insect , 1963 .
[38] E. Rinterknecht,et al. [Electron microscopical studies of the cuticular cycle during the 4th larval stage of Locusta migratoria]. , 1966, Zeitschrift fur Zellforschung und mikroskopische Anatomie.
[39] R. Hackman. The soluble cuticular proteins form three arthropod species: Scylla serrata (Decapoda: Portunidae), Boophilus microplus (Acarina: Ixodidae) and Agrianome spinicollis (Coleoptera: Cerambycidae). , 1974, Comparative biochemistry and physiology. B, Comparative biochemistry.
[40] Michael Locke,et al. Chapter 2 – THE STRUCTURE AND FORMATION OF THE INTEGUMENT IN INSECTS , 1974 .
[41] S. O. Andersen. Cuticular sclerotization in the beetles Pachynoda epphipiata and Tenebrio molitor , 1975 .
[42] S. Caveney,et al. Intercellular communication in a positional field. Ultrastructural correlates and tracer analysis of communication between insect epidermal cells. , 1975, Tissue & cell.
[43] W. Kenchington,et al. Studies on the oöthecal protein of the tortoise beetle, Aspidomorpha. , 1966, Journal. Royal Microscopical Society.
[44] E. Jaworski,et al. Synthesis of Chitin in Cell-free Extracts of Prodenia eridania , 1963, Nature.
[45] M. Locke. The Structure of Insect Tracheae , 1957 .
[46] R. Hackman,et al. Melanin in an Insect, Lucilia cuprina (Wied.) , 1967, Nature.
[47] Rudall Km. Protein ribbons and sheets. , 1955 .
[48] L. Gilbert,et al. Correlations between epidermal cell structure and endogenous hormone titers during the fifth larval instar of the tobacco hornworm, Manduca sexta. , 1979, Tissue & cell.
[49] J. L. Gould,et al. The Dance-Language Controversy , 1976, The Quarterly Review of Biology.
[50] N. Agui,et al. Induction of Moulting of Cultivated Integument Taken from a Diapausing Rice Stem Borer Larva in the Presence of Ecdysterone (Lepidoptera : Pyralidae) , 1969 .
[51] M. Bade,et al. Digestion of cuticle chitin during the moult of Manduca sexta (Lepidoptera: Sphingidae) , 1979 .
[52] J. Blackwell,et al. The structure of ?-chitin , 1978 .
[53] L. Gilbert,et al. Metabolism and protein transport of a possible pupal cuticle tanning agent in Manduca sexta. , 1974, Journal of insect physiology.
[54] T. Jukes. Silent nucleotide substitutions and the molecular evolutionary clock. , 1980, Science.
[55] A. Richards,et al. The cuticular protuberances of insects , 1979 .
[56] Y. Kato,et al. Temporal pattern of changes in mitotic frequency in the epidermis and other larval tissues of Bombyx mori , 1977 .
[57] B. Filshie,et al. The structure and development of a surface pattern on the cuticle of the green vegetable bug Nezara viridula. , 1969, Tissue & cell.
[58] W. Lusby,et al. The cuticular lipids of the walkingstick, Diapheromera femorata (Say) , 1981 .
[59] N. Agui. Time studies of ecdysone-action on in vitro apolysis of Chilo suppressalis integument , 1977 .
[60] Kenneth Bailey,et al. Amino acid composition of a new rubber-like protein, resilin , 1961 .
[61] E. Slifer. The fine structure of insect sense organs. , 1961, International review of cytology.
[62] J. Kunkel. Cockroach molting. I. Temporal organization of events during molting cycle of Blattella germanica (L.). , 1975, The Biological bulletin.
[63] Hitoshi Sato,et al. Structural proteins in the egg envelopes of dragonflies, Sympetrum infuscatum and S. frequens , 1974 .
[64] J. H. Pepper,et al. Proteins of Mormon Cricket Exoskeleton. I. Amino Acid Composition of (a) Pronotal Shields, (b) Abdominal Tergites, (c) Abdominal Intersegmental Connectives , 1957, Physiological Zoology.
[65] J. H. Law,et al. Oothecal proteins of the oriental praying mantid, Tenodera sinensis , 1973 .
[66] W. Kenchington,et al. Arthropod Silks: The Problem of Fibrous Proteins in Animal Tissues , 1971 .
[67] M. Locke,et al. The Cuticular Pattern in an Insect--The Intersegmental Membranes , 1960 .
[68] P. H. Wells,et al. Do Honey Bees have a Language? , 1973, Nature.
[69] H. R. Hepburn,et al. Proboscis extension and recoil in Lepidoptera , 1971 .
[70] A. Richards. Studies on arthropod cuticle—XIII: The penetration of dissolved oxygen and electrolytes in relation to the multiple barriers of the epicuticle , 1957 .
[71] Richard A. Ellis,et al. THE FINE STRUCTURE OF COCKROACH CAMPANIFORM SENSILLA , 1969, The Journal of cell biology.
[72] J. Dalingwater. SEM observations on the cuticles of some decapod crustaceans , 1975 .
[73] L. L. Jackson,et al. Cuticular lipids of insects. VI. Cuticular lipids of the grasshoppers Melanoplus sanguinipes and Melanoplus packardii. , 1974, Journal of lipid research.
[74] D. Smith,et al. Fine structure of the chorion of a moth, hyalophora cecropia. , 1971, Tissue & cell.
[75] K. M. Rudall. CHAPTER 9 – Silk and Other Cocoon Proteins , 1962 .
[76] G. Fraenkel,et al. The structure of insect cuticles , 1947, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[77] A. Neville,et al. Pore canal shape related to molecular architecture of arthropod cuticle. , 1969, Tissue & cell.
[78] S. O. Andersen. Comparison between the sclerotization of adult and larval cuticle in Schistocerca gregaria , 1973 .
[79] H. V. Wilson. On some phenomena of coalescence and regeneration in sponges , 1907 .
[80] P. R. Thompson. Histological development of cuticle in the worker honeybee, Apis mellifera adansonii. , 1978 .
[81] R. Dennell,et al. A study of an insect cuticle: the larval cuticle of Sarcophaga falculata Pand. (Diptera) , 1946, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[82] S. O. Andersen,et al. The isolation of ketocatechols from insect cuticle and their possible rôle in sclerotization , 1971 .
[83] S. O. Andersen. Cuticular sclerotization in larval and adult locusts, Schistocerca gregaria. , 1974, Journal of insect physiology.
[84] J. Warwicker. Comparative studies of fibroins. II. The crystal structures of various fibroins. , 1960, Journal of molecular biology.
[85] E. Furshpan,et al. THE MECHANICS OF FLIGHT MOVEMENTS IN DIPTERA , 1952 .
[86] S. G. Smith,et al. Comparative studies of fibroins. I. The amino acid composition of various fibroins and its significance in relation to their crystal structure and taxonomy. , 1960, Journal of molecular biology.
[87] A. Gilby,et al. The calcified puparium of a fly , 1976 .
[88] N. F. Hadley. Epicuticular lipids of the desert tenebrionid beetle, Eleodes armata: Seasonal and acclimatory effects on composition , 1977 .
[89] J. Shaw. The Permeability and Structure of the Cuticle of the Aquatic Larva of Sialis Lutaria , 1955 .
[90] T. Weis-Fogh. A Rubber-Like Protein in Insect Cuticle , 1960 .
[91] N. Krishnan,et al. The formation of the ecdysial droplets and the ecdysial membrane in an insect. , 1973, Tissue & cell.
[92] A. Neville. Circadian organization of chitin in some insect skeletons , 1965 .
[93] H. K. Mitchell,et al. Aspects of cuticle formation in Drosophila melanogaster , 1971 .
[94] J. Beament. The Waterproofing Mechanism of Arthropods: I. The Effect of Temperature on Cuticle Permeability in Terrestrial Insects and Ticks , 1959 .
[95] G. Fraenkel,et al. The rôle of bursicon in melanization and endocuticle formation in the adult fleshfly, Sarcophaga bullata , 1969 .
[96] S. Caveney. Intercellular communication in a positional field: movement of small ions between insect epidermal cells. , 1974, Developmental biology.
[97] R. Hackman,et al. Comparative chemistry of arthropod cuticular proteins , 1976 .
[98] D. Carlstrom. THE CRYSTAL STRUCTURE OF α-CHITIN (POLY-N-ACETYL-D-GLUCOSAMINE) , 1957 .
[99] Structural cuticular proteins in termite queens. , 1978, Comparative biochemistry and physiology. B, Comparative biochemistry.
[100] A. Clements,et al. The cuticular lipids of the larva of Tenebrio molitor L. (Coleoptera) , 1967 .
[101] E. Edney. Laboratory studies on the bionomics of the rat fleas, Xenopsylla brasiliensis, Baker, and X. cheopis, Roths.; water relations during the cocoon period. , 1947, Bulletin of entomological research.
[102] M. Locke,et al. THE CUTICULAR PATTERN IN AN INSECT, RHODNIUS PROLIXUS STAL , 1959 .
[103] A. Richards,et al. Electron microscope studies of insect cuticle, with a discussion of the application of electron optics to this problem , 1942 .
[104] B. Söderström,et al. A method for determination of low carbon monoxide concentration in blood. , 1966, Acta physiologica Scandinavica.
[105] E. Atkins. A four-strand coiled-coil model for some insect fibrous proteins☆ , 1967 .
[106] Werner R. Loewenstein,et al. STUDIES ON AN EPITHELIAL (GLAND) CELL JUNCTION I. Modifications of Surface Membrane Permeability , 1964 .
[107] M. G. M. Pryor,et al. On the hardening of the ootheca of Blatta orientalis , 1940, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[108] R. Hackman. Distribution of cystine in a blowfly larval cuticle and stabilization of the cuticle by disulphide bonds , 1971 .
[109] M. Locke. The structure and formation of the cuticulin layer in the epicuticle of an insect, Calpodes ethlius (Lepidoptera, Hesperiidae) , 1966, Journal of morphology.
[110] R. E. Marsh,et al. The structure of tussah silk fibroin (with a note on the structure of β-poly-l-alanine) , 1955 .
[111] H. E. Hinton. Respiratory systems of insect egg shells. , 1969, Annual review of entomology.
[112] K. M. Rudall. The Chitin/Protein Complexes of Insect Cuticles , 1963 .
[113] J. Vincent,et al. Mechanism of Abdominal Extension during Oviposition in Locusta , 1972, Nature.
[114] J. Geiger,et al. Possible involvement of cockroach haemocytes in the storage and synthesis of cuticle proteins. , 1977, Journal of insect physiology.
[115] V. Wigglesworth. Haemocytes and basement membrane formation in Rhodnius , 1973 .
[116] R. Lockshin,et al. Programmed cell death. , 1974, Life sciences.
[117] S. O. Andersen. Biochemistry of Insect Cuticle , 1979 .
[118] J. Beament. The cuticular lipoids of insects , 1945 .
[119] S. Anderson,et al. Covalent cross-links in a structural protein, resilin. , 1966, Acta physiologica Scandinavica. Supplementum.
[120] R. Bird,et al. Studies on mosquito-borne viruses in their vectors. I. The normal fine structure of the midgut epithelium of the adult female Aedes aegypti (L.) and the functional significance of its modification following a blood meal. , 1961, Transactions of the Royal Society of Tropical Medicine and Hygiene.
[121] S. O. Andersen,et al. Resilin. A Rubberlike Protein in Arthropod Cuticle , 1964 .
[122] R. P. Srivastava. Electrophoretic behaviour of cuticular proteins of different developmental stages of Galleria mellonella , 1970 .
[123] H. Bennet-Clark. Active control of the mechanical properties of insect endocuticle , 1962 .
[124] A. Neville,et al. A two-system model for chitin-protein complexes in insect cuticles. , 1969, Tissue & cell.
[125] Y. E. E. Eassa,et al. The feeding mechanism of the butterfly Pieris Brassicae L , 1955, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.
[126] S O ANDERSEN,et al. THE CROSS-LINKS IN RESILIN IDENTIFIED AS DITYROSINE AND TRITYROSINE. , 1964, Biochimica et biophysica acta.
[127] J. Truman,et al. Eclosion hormone may control all ecdyses in insects , 1981, Nature.
[128] B. Welinder. The crustacean cuticle--III. Composition of the individual layers in Cancer pagurus cuticle. , 1975, Comparative biochemistry and physiology. A, Comparative physiology.
[129] D. J. Candy,et al. Studies on Chitin Synthesis in the Desert Locust , 1962 .
[130] H. Kawasaki,et al. Structural proteins in the egg-shell of the oriental garden cricket, Gryllus mitratus. , 1971, The Biochemical journal.
[131] M. J. Thompson,et al. Identification of the major constituents of the crystalline powder covering the larval cuticle of Samia cynthia ricini (Jones) , 1965 .
[132] L. Gilbert,et al. Epidermal cell development during the pupal-adult metamorphosis of Hyalophora cecropia. , 1976, Tissue & Cell.
[133] S. O. Andersen. The stabilization of locust cuticle , 1981 .
[134] R. Zacharuk. Fine structure of the cuticle, epidermis, and fat body of larval Elateridae (Coleoptera) and changes associated with molting , 1972 .
[135] V. Wigglesworth. Distribution of lipid in the lamellate endocuticle of Rhodnius prolixus (Hemiptera). , 1975, Journal of cell science.
[136] B. Filshie. The fine structure and deposition of the larval cuticle of the sheep blowfly (Lucilia Cuprina). , 1970, Tissue & cell.
[137] Peter A. Lawrence,et al. Polarity and Patterns in the Postembryonic Development of Insects , 1970 .
[138] M. Locke. Permeability of Insect Cuticle to Water and Lipids , 1965, Science.
[139] K. Gardner,et al. Refinement of the structure of β‐chitin , 1975 .
[140] R. Pau,et al. The isolation and characterization of proteins from the left colleterial gland of the cockroach, Periplaneta americana (L.) , 1971, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[141] N. F. Hadley. Cuticular permeability of desert tenebrionid beetles: Correlations with epicuticular hydrocarbon composition , 1978 .
[142] S. O. Andersen. Isolation of arterenone (2-amino-3′,4′-dihydroxyacetophenone) from hydrolysates of scleratized insect cuticle , 1970 .
[143] V. Wigglesworth. Memoirs: The Physiology of the Cuticle and of Ecdysis in Rhodnius prolixus (Triatomidae, Hemiptera); with special reference to the function of the oenocytes and of the dermal glands , 1933 .
[144] K. M. Rudall,et al. Calcium citrate in an insect. , 1955, Biochimica et Biophysica Acta.
[145] E. Jaworski,et al. Biosynthesis of chitin during various stages in the metamorphosis of Prodenia eridania , 1965 .
[146] T. Weis-Fogh,et al. Biology and physics of locust flight. V. Strength and elasticity of locust cuticle , 1962, Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences.
[147] S. O. Andersen,et al. The amino-acid composition of cuticles from Tenebrio molitor with special reference to the action of juvenile hormone , 1973 .
[148] A. Winfree,et al. A single spiral artefact in arthropod cuticle. , 1978, Tissue & cell.
[149] V. Wigglesworth,et al. THE INSECT CUTICLE , 1948, Biological reviews of the Cambridge Philosophical Society.
[150] M. Locke. The Cuticle and Wax Secretion in Calpodes Ethlius (Lepidoptera, Hesperidae) , 1960 .
[151] R. Dennell. The structure of the cuticle of the shore‐crab Carcinus maenas (L.) , 1973 .
[152] R. Hackman,et al. Studies on the hardening and darkening of insect cuticles , 1971 .
[153] H. Hepburn,et al. Locust solid cuticle—A time sequence of mechanical properties , 1974 .
[154] S. O. Andersen. Characterization of a new type of cross-linkage in resilin, a rubber-like protein. , 1963, Biochimica et biophysica acta.
[155] H. J. Woods,et al. X-Ray Studies of the Structure of Hair, Wool, and Related Fibres. II. The Molecular Structure and Elastic Properties of Hair Keratin , 1934 .
[156] J. A. Ramsay. The Evaporation of Water from the Cockroach , 1935 .
[157] B. Filshie,et al. A proposed solution to a fine-structural puzzle: the organization of gill cuticle in a crayfish (Panulirus). , 1980, Tissue & cell.
[158] L. Gilbert,et al. Epidermal cell development and control of cuticle deposition during the last larval instar of Manduca sexta , 1978 .
[159] H. Hepburn,et al. Extensometric properties of insect fibroins: The green lacewing cross-β, honeybee α-helical and greater waxmoth parallel-β conformations , 1979 .
[160] Y Bouligand,et al. Twisted fibrous arrangements in biological materials and cholesteric mesophases. , 1972, Tissue & cell.
[161] M. Locke. The ultrastructure of the oenocytes in the moltiintermolt cycle of an insect , 1969 .
[162] M. Pryor,et al. On the hardening of the cuticle of insects , 1940, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[163] R. Hackman. Gel electrophoresis and sephadex thin-layer studies of proteins from an insect cuticle, Agrianome spinicollis (coleoptera) , 1972 .
[164] H. Bennet-Clark,et al. The jump of the flea: a study of the energetics and a model of the mechanism. , 1967, The Journal of experimental biology.
[165] M. Locke. The Co-ordination of Growth in the Tracheal System of Insects , 1958 .
[166] J. Beament. WAX SECRETION IN THE COCKROACH , 1955 .
[167] H. E. Hinton,et al. Apolysis in Arthropod Moulting Cycles , 1966, Nature.
[168] M. Way. The structure and development of the larval cuticle of Diataraxia oleracea (Lepidoptera). , 1950, The Quarterly journal of microscopical science.
[169] L. L. Jackson,et al. Cuticular lipids of insects—III. The surface lipids of the aquatic and terrestrial life forms of the big stonefly, Pteronarcys californica newport , 1969 .
[170] P. Lawrence. Gradients in the Insect Segment: The Orientation of Hairs in the Milkweed Bug Oncopeltus Fasciatus , 1966 .
[171] V. Wigglesworth. The epicuticle in an insect, Rhodnius prolixus (Hemiptera) , 1947, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[172] E. Slifer,et al. The Fine Structure of the Membranes which Cover the Egg of the Grasshopper, Melanoplus Differentialis, with Special Reference to the Hydropyle , 1963 .
[173] S. G. Smith,et al. 30—The Chemical Constitution of some Silk Fibroins and its Bearing on their Physical Properties , 1955 .
[174] S. O. Andersen. Evidence for two mechanisms of sclerotisation in insect cuticle , 1974, Nature.
[175] V. Wigglesworth,et al. Wound Healing in an Insect (Rhodnius Prolixus Hemiptera) , 1937 .
[176] J. Whitten. Coordinated development in the fly foot: Sequential cuticle secretion , 1969 .
[177] Hitoshi Sato,et al. Structural Proteins in the silkworm egg-shells , 1971 .
[178] K. M. Rudall,et al. The Silk of the Egg-Stalk of the Green Lace-Wing Fly: Structure of the Silk of Chrysopa Egg-stalks , 1957, Nature.
[179] J. Beament. The formation and structure of the chorion of the egg in an hemipteran, Rhodnius prolixus. , 1946, The Quarterly journal of microscopical science.
[180] R. Hackman,et al. Composition of the oothecae of three Orthoptera , 1960 .