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The Janeway's Immunobiology CD-ROM, Immunobiology Interactive, is included with each book, and can be purchased separately. It contains animations and videos with voiceover narration, as well as the figures from the text for presentation purposes.
The major histocompatibility complex (Mhc) is one of the few identified gene systems in domestic animals that is associated with quantitative traits such as disease resistance, immune response, growth, and reproduction. As knowledge of this important system increases, we move closer toward the reality of genetic enhancement of animal welfare and production efficiency. This book represents the current state of knowledge on the Mhc of agriculturally important animals and explores the latest advances in technology. For the first time, the unique findings of recent Mhc research are presented in a single source. The Major Histocompatibility Complex Region of Domestic Animal Species begins with a discussion of the evolution of Mhc. The chapters are then organized with respect to specific species, with a chapter devoted to each. The Mhc of mice and humans are used as a common reference for comparisons between diverse species. The text concludes with a look at future strategies and directions in Mhc research. Comparative immunologists and geneticists, veterinarians, animal breeders, researchers, and university and postgraduate students will all benefit from this detailed look at the evolution, structure, and organization of Mhc.
A comprehensive guide to the HLA (Human Leukocyte Antigen) system for immunologists and clinicians, this book contains up-to-date information on the MHC (Major Histocompatibility Complex) and its role in the immune response and in various diseases. The book explores the biological significance and role of the HLA system in organ and haematopoietic stem cell transplantation management. This volume is an invaluable guide to the full spectrum of HLA-related science while also serving as a conceptual and technical resource for those involved in HLA-related research and in clinical or surgical practice. In addition, it will be a primary point of contact for individuals working in other areas who suddenly find that their research is drawing them into the complexities of HLA genetics.
TheBlymphocytelineagerepresentsaleadingsystemforexploring- lecularmechanismsthatunderliecellfatespecification, differentiationand cellular activation. In the past five years major advances have been achievedintheanalysisofearlyBcelldevelopment, AIDdependentclass switchrecombinationaswellassomatichypermutationandBlimp-1re- latedplasmacelldifferentiation. Manyofthesefindingsandtheirimpli- tionsarecoveredinthisvolume. Twoemergentareasofresearchthatare includedinthecontributionsfocusonthepre-BCRandIkaros-familyp- teins. Thepre-BCRisanunusualmoleculardevicethatisusedtoexecute acriticaldevelopmentalcheckpointintheBlineage. Itsmechanismof- tion in relationto the pre-TCR and the mature antigen receptors (BCR, TCR)isofconsiderableinterest. Ikaros-familyproteinsappeartofunction viarecruitingtargetgenestodomainsofcentromericheterochromatinin the nucleus. Initially discovered in lymphocytes, they represent a novel system of gene regulationvia nuclearcompartmentalization. Finally, the volumeincludesachapteronWntsignalinginlymphopoiesis. Analysisof thisevolutionallyconservedpathwaywhichregulatescellularproliferation anddifferentiationindiversedevelopmentalcontextsbenefitedenormo- lyfromthediscoveryoftheLEF/TCFfamilyoffactorsinlymphocyticl- eages. ThisvolumeisdedicatedtothememoryofEugeniaSpanopoulou, ac- leagueandahighlyvaluedmemberofourscientificcommunity. Itc- tainsachapteronthebiochemistryofV(D)JrecombinationthatEugenia co-authoredwithDavidSchatz. Obituary Eugenia Spanopoulou was an extraordinary person and scientist. Her enormousintelligenceandenergysparkedimportantscientificdiscoveries, andvaultedhertoapointofbreathtakingpotential apotentialabruptly erasedattheageof37withthecrashofSwissairflight111onSeptember 3,1998. Lostwithherwereherhusband, AndrewHodtsev, andyoungson, Platon. Eugeniawaspassionatelyinterestedinunderstandingthemolecular- sisofdevelopmentandchoseashermodelsystemthedevelopmentofB andTlymphocytes. Shebeganbystudyingthetranscriptionalregulation oftheTcell-specificgene, Thy-1, asagraduatestudentinFrankGrosveld s labatMillHill, London. Thereafter, sheturnedherattentiontothetopicof V(D)Jrecombination, firstasapostdoctoralfellowwithDavidBaltimore attheWhiteheadInstituteinCambridge, Massachusettsandsubsequently inherownlaboratoryatMountSinaiSchoolofMedicineinNewYorkCity. Eugeniamadefundamentaldiscoveriesconcerningthebiochemicalme- anismofthisreaction, andhowdefectsinitscentralenzymaticcom- nents, RAG1andRAG2, canleadtoahumanseverecombinedimmuno- ficiencydisorder, knownasOmennsyndrome. Atthetimeof herdeath, shehadbeenaHowardHughesMedicalInstituteinvestigatorforlessthan ayear, buthadalreadyassembledalaboratoryof15peopleworkingonan extensivearrayoftopicsinearlylymphocytedevelopmentandV(D)J- combination. Eugenialivedeachmomentofherlifewithanintensityfittingforthe cityinwhichshelived. LikeManhattan, shesleptlittle. Sheexpectedagreat dealofherself, andonlyalittlelessfromthosewithwhomsheworked. - geniaalsohadhighexpectationsforthescientificprocessandwasouts- keninherpraiseorcondemnationofthosewhometorfellshortofthose expectations. Shewasquicktoformanopinionanddevotedherselffe- ciouslytofriendshipsandhypotheses. PerhapsthegreatesttestimonytoEugeniaistheaffectionandreverence feltforherby themembersof herlab. Whilethisstemmedinnosmall partfrompredictablesources herkeenmindandbroadknowledge it founditsdeepestsourceinEugenia sabilitytotransmit, byexampleand word, her love of a life of learning and exploration. SandroSantigata, a graduatestudentinEugenia slab, capturedthiseloquentlyatthememorial serviceforEugeniaandAndrew, whenhesaid: VIII Obituary Ifyouhaveeverbeenspellboundbyagreatstatue, enrapturedbyits strengthandvitality, enthralledbyitspurity, purposeandgraceandupli- edbythesenseofhopethatitsparkswithinyoursoul, thenyouhave- readyunderstoodwhyIadoredEugenia. Shesimplyembodiedtheideal- ticprinciplesthatformthecoreofadedicatedgraduatestudent sheart. Andtoseethesevaluesmaterializedintheformofone smentorcanbe nothingshortofinspirational. ListofContents GeneRegulatoryNetworksOrchestratingBCellFateSpecification, Commitment, andDifferentiation K. L. Medina.H. Singh. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Helix-Loop-HelixProteinsinLymphocyteLineageDetermination B. L. Kee. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Ikaros-FamilyProteins: InSearchofMolecularFunctions DuringLymphocyteDevelopment B. S. Cobb.S. T. Smale. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 BiochemistryofV(D)JRecombination y D. G. Schatz.E. Spanopoulou. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Thepre-BcellReceptorinBCellDevelopment: RecentAdvances, PersistentQuestionsandConservedMechanisms M. R. Clark.A. B. Cooper.L. D. Wang.I. Aifantis. . . . . . . . . . . . . . . . . 87 TranscriptionalControlofBCellActivation L. M. Corcoran . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105 ExpressionofMHCIIGenes G. Drozina.J. Kohoutek.N. Jabrane-Ferrat.B. M. Peterlin. . . . . . . . . 147 ClassSwitchRecombination: AnEmergingMechanism A. L. Kenter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 171 Blimp-1;ImmunoglobulinSecretion andtheSwitchtoPlasmaCells R. Sciammas.M. M. Davis. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201 WntSignalinginLymphopoiesis A. Timm.R. Grosschedl. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225 SubjectIndex . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253 ListofContributors (Theiraddressescanbefoundatthebeginningoftheirrespectivechapters. ) Aifantis, I. 87 Kohoutek, J. 147 Clark, M. R. 87 Medina, K. L. 1 Cobb, B. S. 29 Peterlin, B. M. 147 Cooper, A. B. 87
This work is a natural history of the major histocompatibility complex written for anyone who is working on the MHC but wants to step back and review the complex in its entirety; for anyone who wants to be introduced to the MHC; or for anyone who is just curious about this much talked-about chromosomal region. By natural history is meant an all encompassing treatment of the MHC, both human and mouse, in its entire range and its details - but presented in a way that anybody can understand without consulting a variety of other sources. Most of the details are summarized in the form of tables whereas the text concentrates on generalizations and discussions. Thus, the book will be of interest to immunologists and geneticists seeking an overview of the subject and to graduate students in these disciplines. It will also be of value to technicians working in HLA-typing laboratories.
This volume contains the proceedings of the NATO Advanced Study Institute held in Porto Conte (Alghero), Sardinia, September 15-27, 1991. The A. S. 1. was attended by 86 graduate and postgraduate students from 18 different countries, and was hosted by the newly founded International Laboratory of Molecular Genetics of Porto Conte, directed by Prof. Marcello Siniscalco. The A. S. I. was funded by NATO Scientific Affairs Division, the International Union of Immunological Societies, the European Community (Directorate General for Science, Research and Development), the Italian Research Council, and the San Raffaele Institute of Milano. In addition, a number of students who reside in the U. S. received travel funds from the U. S. National Science Foundation, and the Turkish National Fund provided financial assistance to several students from Turkey. When we decided to organize a course on T lymphocytes, our concern was to reach a balance between the teaching of both the hard core principles and the latest experimental findings of cellular immunology, and the recently expanded interfaces with the not-yet known: hypotheses, speCUlations, new projections to be born from the discussions.
From molecules to populations and back In biology, the most vigorous organisms often ensue from a union of two disparate, pure lines. In science, too, laws of hybrid vigor seem to operate at the interface between two disciplines, an interface that often proves to be fertile ground for germinating concepts and new outlooks. The fringes of research into the major histocompatibility complex (Mhc) have provided such an interface several times in the past and the encounters have invigorated fields such as transplantation biology, cellular immunology, and immunogenetics. In the last few years, a new interface has been emerging between Mhc and evolutionary genetics, and particularly the branch of evolutionary genetics dealing with molecular evolution. Mhc research relies upon molecular evolutionary genetics, with its grand superstructure of mathematical formulations, to come to grips with the events leading to and maintaining the Mhc polymorphism. Without the armament of rigorous statistical procedures developed by evolutionary geneticists, the intricate relationships among Mhc genes cannot be resolved. It will undoubtedly be a molecular geneticist who is the final arbiter in the dispute concerning the nature of the selection pressure molding the Mhc genes. And it is doubtful whether the true function of Mhc can ever be comprehended without the vantage point afforded by the elucidation of its evolutionary history.
A two-in-one text providing teaching lab students with an overview of immunology as well as a lab manual complete with current standard exercises. Section I of this book provides an overview of the immune system and immunity, and includes review questions, problem sets, case studies, inquiry-based questions, and more to provide students with a strong foundation in the field. Section II consists of twenty-two lab exercises focused on key concepts in immunology, such as antibody production, cell separation, cell function, immunoassays, Th1/Th2 cytokine detection, cell and tissue culture methods, and cell and molecular biology techniques. Appendices include safety information, suggested links and readings, and standard discipline processes, protocols, and instructions.
Immunogenetics is a 12-chapter book that begins with the elucidation of the major histocompatibility complex genes and their role in autoimmune and infectious diseases. Subsequent chapters explore the human major histocompatibility complex, including implications of their complement genes for linkage disequilibrium and disease associations. This book also describes the genetics of human immunoglobulins; T-cell clones; genes of the major histocompatibility complex of the mouse; and the generation, characterization, and use of monoclonal antibodies of murine and human origin. Specific diseases are also discussed; these include spondoarthritides, rheumatoid arthritis, systemic lupus erythematosus, multiple sclerosis, and autoimmune thyroid disease. This book will be of beneficial value to specialists in infectious diseases, endocrinology, connective tissue diseases, and neurology, as well as to medical scientists in immunology and molecular biology.