LEADER 07279nam  2200589   450 
001 9910557796203321
005 20220712012817.0
010   $a0-12-812432-6
010   $a0-12-812431-8
035   $a(CKB)4100000009933747
035   $a(MiAaPQ)EBC5984875
035   $a(EXLCZ)994100000009933747
100   $a20191217d2020      uy             0
101 0 $aeng
135   $aurcnu||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 04$aThe zebrafish in biomedical research $ebiology, husbandry, diseases, and research applications /$fedited by Samuel C. Cartner, Judith S. Eisen, Susan C. Farmer, Karen J. Guillemin, Michael L. Kent, George E. Sanders
210  1$aLondon, England :$cAcademic Press,$d[2020]
210  4$dİ2020
215   $a1 online resource (720 pages)
225 1 $aAmerican College of Laboratory Animal Medicine series
320   $aIncludes bibliographical references and index.
327   $tHistory of zebrafish research /$rJudith S. Eisen --$gpages 3-14 --$tZebrafish taxonomy and phylogeny or taxonomy and phylogeny /$rBraedan M. McClusky, Ingo Braasch --$gpages 15-24 --$tZebrafish genetics /$rJohn H. Postlethwait, Ingo Braasch --$gpages 25-39 --$tGeographic range and natural distribution /$rCarole J. Lee, Charles R. Tyler, Gregory C. Paull --$gpages 41-56 --$tBehavior of wild populations /$rCarole J. Lee, Charles R. Tyler, Gregory C. Paull --$gpages 57-72 --$tZebrafish in biomedical research : head and body : anatomy /$rGeorge E. Sanders --$gpages 77-79 --$tEstablishing the body plan : the first 24 hours of zebrafish development /$rNatalie L. Smith, David Kimelman --$gpages 81-88 --$tZebrafish integumentary system /$rAndrew J. Aman, David M. Parichy --$gpages 91-96 --$tZebrafish pigmentation /$rDavid M. Parichy --$gpages 97-102 --$tRespiratory system /$rMichael G. Jonz --$gpages 103-107 --$tSkeletal system morphophysiology /$rClaire J. Watson, Ronald Y. Kwon --$gpages 109-114 --$tZebrafish myology /$rFrank J. Tulenko, Peter Currie --$gpages 115-121 --$tIt takes guts : development of the embryonic and juvenile zebrafish digestive system /$rMorgan Prochaska, Jianlong Li, Kenneth N. Wallace --$gpages 123-130 --$tZebrafish cardiovascular system /$rMarina Venero Galanternik, Amber N. Stratman, Brant M. Weinstein --$gpages 131-143 --$tDevelopment of the zebrafish pronephric and mesonephric kidneys /$rCuong Q. Diep, Noriko Mikeasky, Alan J. Davidson --$gpages 145-150 --$tReproductive system /$rKellee R. Siegfried, Bruce W. Draper --$gpages 151-164 --$tEndocrine systems /$rDaniel A. Gorelick, Lauren M. Habenicht --$gpages 165-179 --$tZebrafish nervous systems /$rJan Kaslin, Julia Ganz --$gpages 181-189 --$tImmunology /$rDavid Traver, Jeffrey A. Yoder --$gpages 191-216 --$tPhysiology : hematology and clinical chemistry, gas exchange, and regulatory osmolality /$rLauren M. Habenicht --$gpages 217-233 --$tZebrafish in biomedical research: the retina and vision /$rWhitney M. Cleghorn, Susan E. Brockerhoff --$gpages 237-244 --$tMechanosensory lateral line system /$rEric D. Thomas, David W. Raible --$gpages 245-253 --$tInner ear and hearing /$rAllison B. Coffin, Alexandria M. Hudson --$gpages 255-260 --$tIntroduction to zebrafish husbandry /$rSusan C. Farmer --$gpages 263- 264 --$tAquatics facility design considerations : incorporating aquatics into an animal facility /$rJeffrey R. Zynda --$gpages 265-277 --$tAquatic housing /$rJason Cockington --$gpages 279-298 --$tCleaning and disinfection of life systems /$rErik Sanders --$gpages 299-308 --$tZebrafish aquatic sytems : preventative maintenance and troubleshooting /$rLauren Pandolfo, John Aliucci --$gpages 309-320 --
327   $tWater quality for zebrafish culture /$rHugh S. Hammer --$gpages 321-335 --$tRecirculating aquaculture systems (RAS) for zebrafish culture /$rHugh S. Hammer --$gpages 337-356 --$tZebrafish breeding and colony management /$rDavid Castranova, Chongmin Wang --$gpages 357-364 --$tZebrafish larviculture /$rChristian Lawrence --$gpages 365-378 --$tZebrafish nutrition : moving forward /$rL. Adele Fowler, Michael B. Williams, Louis R. D'Abramo, Stephen A. Watts --$gpages 379-401 --$tAnesthesia, analgesia, and euthanasia of the laboratory zebrafish /$rChereen Collymore --$gpages 403-413 --$tHealth surveillance programs /$rChristine Lieggi --$gpages 415-429 --$tImportation and quarantine /$rChristine Lieggi --$gpages 431-442 --$tExport and transportation of zebrafish /$rCarrie L. Barton, Diana P. Baumann, James D. Cox --$gpages 443-450 --$tRegulations, policies and guidelines pertaining to the use of zebrafish in biomedical research /$rSamuel C. Cartner, Earle Durboraw, Amanda Watts --$gpages 451-459 --$tWater quality and idiopathic diseases of laboratory zebrafish /$rKatrina N. Murray, David Lains, Sean T. Spagnoli --$gpages 463-477 --$tImportant parasites of zebrafish in research facilities /$rMichael L. Kent, Justin L. Sanders --$gpages 479-494 --$tBacterial and fungal diseases of zebrafish /$tChristopher M. Whipps, Michael L. Kent --$gpages 495-508 --$tViral diseases /$rMarcus J. Crim --$gpages 509-526$tNonexperimentally induced neoplastic and proliferative lesions in laboratory zebrafish /$rSean T. Spagnoli, Katrina N. Murray --$gpages 527-546 --$tSpecial procedures for zebrafish diagnostics /$rMichael L. Kent, Katrina N. Murray, Kay Fischer, Christiana Lo?hr, Donna Mulrooney, Justin L. Sanders --$gpages 547-556 --$tZebrafish as a model to understand vertebrate development /$rNarendra H. Pathak, Michael J.F. Barresi --$gpages  559-591 --$tZebrafish as a model for revealing the neuronal basis of behavior /$rKimberly L. McArthur, Dawnis M. Chow, Joseph R. Fetcho --$gpages 593-617--$tZebrafish as a model to understand human genetic diseases /$rJennifer B. Phillips, Monte Westerfield --$gpages 619-626 --$tZebrafish as a model for investigating animal : microbe interactions /$rTravis J. Wiles, Karen J. Guillemin --$gpages 627--635 --$tTargeted editing of zebrafish genes to understand gene function and human disease pathology /$rAlberto Rissone, Johan Ledin, Shawn M. Burgess --$gpages 637-647 --$tZebrafish as a platform for genetic screening /$rJames T. Nichols --$gpages 649-657 --$tZebrafish as a platform for drug screening /$rTeija Zhang, Randall T. Peterson --$gpages 659-675.
410  0$aAmerican College of Laboratory Animal Medicine series.
606   $aZebra danio
606   $aZebrafish$3(DNLM)D015027
606   $aAnimals, Laboratory$3(DNLM)D000830
606   $aDisease Models, Animal$3(DNLM)D004195
606   $aBiomedical Research$3(DNLM)D035843
608   $aElectronic books.
615  0$aZebra danio.
615 12$aZebrafish
615 22$aAnimals, Laboratory
615 22$aDisease Models, Animal
615 22$aBiomedical Research
676   $a597.482
702   $aCartner$b Samuel C$g(Samuel Corbin),
702   $aEisen$b Judith S.
702   $aFarmer$b Susan C.
702   $aGuillemin$b Karen
702   $aKent$b Michael L$c(Microbiologist),
702   $aSanders$b George E.
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910557796203321
996   $aThe zebrafish in biomedical research$92829471
997   $aUNINA

LEADER 01132nam a2200241 i 4500
001 991004358032307536
005 20241216110830.0
008 241216s1974    it     fr f   001 0 ita d
040   $aBibl. Dip.le Aggr. Ingegneria Innovazione - Sez. IngegneriaInnovazione$beng$cSocioculturale Scs
041 0 $aita
082 04$a516.0076$223
100 1 $aRivolo, Maria Teresa$01777990
245 10$aEsercizi di geometria /$cM. T. Rivolo, A.Sanini, G. Vincenti
260   $aTorino :$bCooperativa Libraria Universitaria Torinese,$cstampa 1974
300   $a291, II p. :$bill. ;$c24 cm
500   $aAt head of title: Appunti dai corsi del Politecnico di Torino
500   $aReferences: La presente raccolta di esercizi si riferisce agli argomenti trattati nel corso di geometria (2. corso di matematica) per gli allievi di ingegneria del Politecnico di Torino, seguendo l'ordine con cui sono presentati nel volume di "Lezioni" di F. Fava
650  4$aGeometry$vProblems, exercises, etc.
700 1 $aSanini, Aristide
700 1 $aVincenti, G.
912   $a991004358032307536
996   $aEsercizi di geometria$94300383
997   $aUNISALENTO