| Q30500200 | A hydrodynamic sensory antenna used by killifish for nocturnal hunting |
| Q56336324 | A lateral line analogue in cephalopods: water waves generate microphonic potentials in the epidermal head lines ofSepia andLolliguncula |
| Q68326817 | A model for the acute electrosensitivity of cartilaginous fishes |
| Q47147651 | A molecular basis for water motion detection by the mechanosensory lateral line of zebrafish |
| Q38369337 | A novel mechanism for mechanosensory-based rheotaxis in larval zebrafish |
| Q30492431 | A review of fish swimming mechanics and behaviour in altered flows |
| Q43475051 | A study of the fine structure of the pit organ of the common Japanese sea eel Conger myriaster |
| Q50667662 | Acoustic intensity limens in the goldfish |
| Q71073524 | Acoustic orientation in the sea catfish, galeichthys felis |
| Q47606585 | Active wall following by Mexican blind cavefish (Astyanax mexicanus) |
| Q34063212 | Afferent and motoneuron activity in response to single neuromast stimulation in the posterior lateral line of larval zebrafish |
| Q27355459 | Afferent neurons of the zebrafish lateral line are strict selectors of hair-cell orientation |
| Q70588863 | An Electromagnetic System for Studying the Responses of Aquatic Organisms to Weak Electric and Magnetic Fields |
| Q48101649 | An efferent inhibition of auditory afferents mediated by the goldfish mauthner cell |
| Q58556049 | Analyzing Neuronal Mitochondria Using Fluorescent Reporters in Zebrafish |
| Q68688630 | Auxiliary structures of tuberous organ (electroreceptor) of Sternarchus albifrons (Gymnotidae) |
| Q37157948 | Bax, Bcl2, and p53 differentially regulate neomycin- and gentamicin-induced hair cell death in the zebrafish lateral line |
| Q89458447 | Behavior, Electrophysiology, and Robotics Experiments to Study Lateral Line Sensing in Fishes |
| Q92726891 | Bidirectional interactions facilitate the integration of a robot into a shoal of zebrafish Danio rerio |
| Q92616651 | Bioluminescent flashes drive nighttime schooling behavior and synchronized swimming dynamics in flashlight fish |
| Q64982834 | Biomechanics in Soft Mechanical Sensing: From Natural Case Studies to the Artificial World. |
| Q47932516 | Biomechanics: How fish feel the flow |
| Q56209917 | Central projections of the lateral line and eighth nerves in the bowfin,Amia calva |
| Q48708353 | Central projections of the octavolateralis nerves of the clearnose skate, Raja eglanteria |
| Q48356243 | Changes in the protein metabolism of the CNS of a teleost following stimulation of the lateral-line organ |
| Q28468560 | Chemical screening for hair cell loss and protection in the zebrafish lateral line |
| Q36077842 | Cobalt Chloride Treatment Used to Ablate the Lateral Line System Also Impairs the Olfactory System in Three Freshwater Fishes |
| Q71855787 | Coding in tuberous and ampullary organs of a gymnotid electric fish |
| Q57097050 | Collision with and avoidance of obstacles by blind cave fish Anoptichthys jordani (Characidae) |
| Q104027382 | Comments on the Lateral Line System of Some Brachythoracid and Ptyctodontid Arthrodires |
| Q35679810 | Comparative Analysis of the Flexural Stiffness of Pinniped Vibrissae |
| Q39968358 | Comparative anatomy of the cerebellum |
| Q51111352 | Comparative anatomy of the vestibular nuclear complex in submammalian vertebrates. |
| Q40338604 | Control of self-motion in dynamic fluids: fish do it differently from bees |
| Q90619576 | Coping with strangers: how familiarity and active interactions shape group coordination in Corydoras aeneus |
| Q47074168 | Delineation of the cell-extrinsic apoptosis pathway in the zebrafish. |
| Q47074069 | Dermal morphogenesis controls lateral line patterning during postembryonic development of teleost fish |
| Q33855792 | Development of a Flexible Artificial Lateral Line Canal System for Hydrodynamic Pressure Detection |
| Q51948733 | Development of diverse lateral line patterns on the teleost caudal fin. |
| Q30445977 | Development of the acoustically evoked behavioral response in larval plainfin midshipman fish, Porichthys notatus |
| Q97552070 | Development of the anterior lateral line system through local tissue-tissue interactions in the zebrafish head |
| Q50661981 | Development of the lateral line canal system through a bone remodeling process in zebrafish. |
| Q52243216 | Development of the mechanoreceptive lateral-line system in the axolotl: placode specification, guidance of migration, and the origin of neuromast polarity. |
| Q86886476 | Diet manipulation affects social behavior of catfish : Importance of body odor |
| Q35539660 | Distant touch hydrodynamic imaging with an artificial lateral line |
| Q50524422 | Do blind cavefish have behavioral specializations for active flow-sensing? |
| Q64986504 | Effect of initial body orientation on escape probability of prey fish escaping from predators. |
| Q71081368 | Effects of Acoustico-Lateralis denervation in a facultative schooling fish: a nearest-neighbor matrix analysis |
| Q76401292 | Effects of running water on brainstem lateral line responses in trout, Oncorhynchus mykiss, to sinusoidal wave stimuli |
| Q59066576 | Electro-perception in Sharks and Rays |
| Q50665993 | Electrophysiological observations on hearing and sound production in the fish,Porichthys notatus |
| Q60090051 | Electroreception and the Ampullæ of Lorenzini in Elasmobranchs |
| Q45258921 | Electroreception in the catfish, Amiurus nebulosus |
| Q72603502 | Electroreceptor mechanisms: the relation of impulse frequency to stimulus strength and responses to pulsed stimuli in the ampullae of Lorenzini of elasmobranchs |
| Q71855792 | Electrosensitivity of canal and free neuromast organs in a gymnotid electric fish |
| Q35084571 | Evolutionary dynamics of ecological niche in three Rhinogobio fishes from the upper Yangtze River inferred from morphological traits |
| Q93031330 | Examining the hearing abilities of fishes |
| Q30368370 | Extracellular divalent cations modulate aminoglycoside-induced hair cell death in the zebrafish lateral line |
| Q69761716 | Fiber composition of the posterior lateral-line nerve of goldfish, investigated by electrophysiological and microscopical techniques |
| Q54365362 | Fine structure of the lateral-line organ of the common eel, Anguilla japonica. |
| Q44325302 | Fine structure of the ordinary lateral line organ. I. The neuromast of lamprey, Entosphenus japonicus. |
| Q42444106 | Fine structure of the ordinary lateral line organ. II. The lateral line canal organ of spotted shark, Mustelus manazo |
| Q39321667 | Fish in a Dish: Drug Discovery for Hearing Habilitation |
| Q36387322 | Fish lateral line innovation: insights into the evolutionary genomic dynamics of a unique mechanosensory organ |
| Q27323183 | Fish optimize sensing and respiration during undulatory swimming |
| Q61811376 | Fish under pressure: Examining behavioural responses of Iberian barbel under simulated hydropeaking with instream structures |
| Q57096961 | Flow field, swimming velocity and boundary layer: parameters which affect the stimulus for the lateral line organ in blind fish |
| Q50624644 | Flow sensing in developing Xenopus laevis is disrupted by visual cues and ototoxin exposure. |
| Q29965875 | Form and function of the teleost lateral line revealed using three-dimensional imaging and computational fluid dynamics |
| Q69419126 | Freeze-fracture study of the lateral-line canal organ of the Japanese sea eel, Lincozymba nystromi |
| Q67016361 | Frequency response of the lateral-line organ of xenopus laevis |
| Q30393783 | Frequency response properties of primary afferent neurons in the posterior lateral line system of larval zebrafish |
| Q50729808 | Functional morphology of the caudal region of certain clupeiform and perciform fishes with reference to the taxonomy |
| Q30524471 | Genetic architecture of variation in the lateral line sensory system of threespine sticklebacks. |
| Q43927718 | Hearing in Terrestrial Urodeles: A Vibration-sensitive Mechanism in the Ear |
| Q59052450 | Hydrodynamic stimuli and the fish lateral line |
| Q30437111 | Imaging dipole flow sources using an artificial lateral-line system made of biomimetic hair flow sensors |
| Q35614526 | Information-processing demands in electrosensory and mechanosensory lateral line systems |
| Q37036405 | Innervation regulates synaptic ribbons in lateral line mechanosensory hair cells |
| Q39951348 | Inputs from the posterior lateral line nerves upon the goldfish Mauthner cell. I. Properties and synaptic localization of the excitatory component |
| Q88916821 | Insights into Electroreceptor Development and Evolution from Molecular Comparisons with Hair Cells |
| Q70555151 | Integrated static activity of the ampullae of Lorenzini after long-term exposure to various temperatures |
| Q30448333 | Intravital imaging of hair-cell development and regeneration in the zebrafish |
| Q53584316 | Larval lampreys possess a functional lateral line system. |
| Q37432885 | Larval zebrafish rapidly sense the water flow of a predator's strike |
| Q30492301 | Lateral line diversity among ecologically divergent threespine stickleback populations |
| Q48686837 | Lateral line layout correlates with the differential hydrodynamic pressure on swimming fish. |
| Q50606716 | Lateral line stimulation patterns and prey orienting behavior in the Lake Michigan mottled sculpin (Cottus bairdi). |
| Q36091060 | Light sensitivity in a vertebrate mechanoreceptor? |
| Q46357917 | Macula Utriculi and Macula Sacculi in the Squirrel Monkey |
| Q52680500 | Mathematical analysis of the stimulus for the lateral line organ. |
| Q81972006 | Metamorphosis-related changes in the lateral line system of lampreys, Petromyzon marinus |
| Q88935501 | Morphology and development of the multiple lateral line canals on the trunk in two species of Hexagrammos (Scorpaeniformes, Hexagrammidae) |
| Q46353303 | Morphology and hydro-sensory role of superficial neuromasts in schooling behaviour of yellow-eyed mullet (Aldrichetta forsteri). |
| Q50419867 | Movement maintains forebrain neurogenesis via peripheral neural feedback in larval zebrafish |
| Q30465712 | Movements of Rana catesbeiana tadpoles in weak current flows resemble a directed random walk. |
| Q48634770 | Neuronal birth order identifies a dimorphic sensorineural map. |
| Q67436004 | Non-innervated sense organs of the lateral line: development in the regenerating tail of the salamanderAmbystoma mexicanum |
| Q54190399 | Nonvisual feeding in a visual planktivore, Xenomelaniris venezuelae. |
| Q51898994 | Object localization through the lateral line system of fish: theory and experiment. |
| Q57097024 | On the discrimination of spatial intervals by the blind cave fish (Anoptichthys jordani) |
| Q90395830 | Optimal Flow Sensing for Schooling Swimmers |
| Q48365547 | Organisation of lateral line and auditory areas in the midbrain of Xenopus laevis |
| Q33891464 | Organization and physiology of posterior lateral line afferent neurons in larval zebrafish |
| Q30465239 | Perception of frequency, amplitude, and azimuth of a vibratory dipole source by the octavolateralis system of goldfish (Carassius auratus). |
| Q70180077 | Peripheral and central nervous responses evoked by small water movements in a cephalopod |
| Q39076336 | Physiological properties of electroreceptors of marine skates |
| Q30452105 | Physiology of Water Motion Detection in the Medicinal Leech |
| Q35994905 | Physiology of afferent neurons in larval zebrafish provides a functional framework for lateral line somatotopy |
| Q69966672 | Physiology of lateral line mechanoreceptive regions in the elasmobranch brain |
| Q37685249 | Pleiotropic effects of a single gene on skeletal development and sensory system patterning in sticklebacks |
| Q30416379 | Positive taxis and sustained responsiveness to water motions in larval zebrafish |
| Q34588145 | Profiling drug-induced cell death pathways in the zebrafish lateral line |
| Q84409530 | Progressive neurogenesis defines lateralis somatotopy |
| Q72642491 | Projection of lateral line afferents in a teleost's brain |
| Q56754717 | Random Forests Hydrodynamic Flow Classification in a Vertical Slot Fishway Using a Bioinspired Artificial Lateral Line Probe |
| Q31148338 | Rapid responses of the cupula in the lateral line of ruffe (Gymnocephalus cernuus). |
| Q46971991 | Regional Differences in Structure of the Vestibular Sensory Regions |
| Q34214906 | Rheotropism in fishes |
| Q30462481 | Role of the lateral line mechanosensory system in directionality of goldfish auditory evoked escape response |
| Q33192666 | SOME OBSERVATIONS ON THE FINE STRUCTURE OF THE LATERAL LINE ORGAN OF THE JAPANESE SEA EEL LYNCOZYMBA NYSTROMI. |
| Q30494641 | STRUCTURE OF THE MACULA UTRICULI WITH SPECIAL REFERENCE TO DIRECTIONAL INTERPLAY OF SENSORY RESPONSES AS REVEALED BY MORPHOLOGICAL POLARIZATION |
| Q35215235 | Second-order projection from the posterior lateral line in the early zebrafish brain |
| Q72732208 | Sense organs of the lateral line system in some electric fish of the Gymnotidae, Mormyridae and Gymnarchidae |
| Q47853222 | Sensing External and Self-Motion with Hair Cells: A Comparison of the Lateral Line and Vestibular Systems from a Developmental and Evolutionary Perspective. |
| Q45324721 | Sensory basis for detection of benthic prey in two Lake Malawi cichlids |
| Q71234191 | Shark Pit Organs: Enhancement of Mechanosensitivity by Potassium Ions |
| Q93692230 | Some morphological principles of the vestibular maculae in birds |
| Q53995648 | Sound localization by the hawaiian squirrelfishes, Myripristis berndti and M. argyromus |
| Q72420387 | Special cutaneous receptor organs of fish: IV. Ampullary organs of the nonelectric catfish,Kryptopterus |
| Q30494638 | THE ULTRASTRUCTURE OF THE KINOCILIUM OF THE SENSORY CELLS IN THE INNER EAR AND LATERAL LINE ORGANS |
| Q30382727 | The Mechanosensory Lateral Line System Mediates Activation of Socially-Relevant Brain Regions during Territorial Interactions. |
| Q30486617 | The detection of pressure fluctuations, sonic audition, is the dominant mode of dipole-source detection in goldfish (Carassius auratus) |
| Q38192314 | The development of lateral line placodes: taking a broader view. |
| Q48969299 | The development of the cerebellum of vertebrates in relation to the control of movement |
| Q37782427 | The effects of anthropogenic sources of sound on fishes |
| Q50609098 | The function of wall-following behaviors in the Mexican blind cavefish and a sighted relative, the Mexican tetra (Astyanax). |
| Q46726199 | The influence of turbulence on the sensory basis of rheotaxis |
| Q69148369 | The lateral line mechanoreceptive mesencephalic, diencephalic, and telencephalic regions in the thornback ray, Platyrhinoidis triseriata (Elasmobranchii) |
| Q30499930 | The overlapping roles of the inner ear and lateral line: the active space of dipole source detection |
| Q70379943 | The rigidity of fish and patterns of lateral line stimulation |
| Q33796228 | The roles and regulation of multicellular rosette structures during morphogenesis |
| Q50683303 | The supposed use of the lateral line as an organ of hearing in fish |
| Q36187957 | The ultrastructure of the sensory hairs and associated organelles of the cochlear inner hair cell, with reference to directional sensitivity |
| Q27329107 | There and back again: development and regeneration of the zebrafish lateral line system |
| Q92818611 | Three-dimensional multi-source localization of underwater objects using convolutional neural networks for artificial lateral lines |
| Q68293173 | Topography and mechanics of the cupula in the fish lateral line. I. Variation of cupular structure and composition in three dimensions |
| Q47661448 | Toral lateral line units of goldfish, Carassius auratus, are sensitive to the position and vibration direction of a vibrating sphere |
| Q39931628 | Towards a methodology of teleonomy |
| Q48665934 | Two Types of Lateral Line Afferents in the Eel (Anguilla anguilla) |
| Q33799542 | Ultrasound detection in fish--a parallel to the sonar-mediated detection of bats by ultrasound-sensitive insects? |
| Q50458358 | Ultrastructural analysis of aminoglycoside-induced hair cell death in the zebrafish lateral line reveals an early mitochondrial response |
| Q42470407 | Ultrastructure of the lateral-line sense organs of the ratfish, Chimaera monstrosa |
| Q73911937 | Ultrastructure of the skin mechanoreceptors of the Chinese giant salamander, Andrias davidianus |
| Q34263385 | Zebrafish larvae exhibit rheotaxis and can escape a continuous suction source using their lateral line |