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245 14$aGli effetti del tempo nel reato :$buno studio tra casisitica e dogmatica /$cGiovanni De Santis
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300   $axi, 422 p. ;$c24 cm
440  0$aUniversità degli studi di Bergamo, Facoltà di giurisprudenza
504   $aBibliografia: p. 407-422
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200 00$aMaking of the future $ethe trajectory equifinality approach in cultural psychology /$fedited by Tatsuya Sato, Naohisa Mori, Jaan Valsiner
210  1$aCharlotte, North Carolina :$cInformation Age Publishing, Inc.,$d2016.
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327   $aIntroduction : from TEM to TEA : the making of a new approach / Tatsuya Sato -- Imagining the past and remembering the future : how the unreal defines the real / Tania Zittoun and Jaan Valsiner -- The trajectory equifinality model (TEM) as a general tool for understanding human life course within irreversible time / Tatsuya Sato and Hitomi Tanimura -- Mapping trajectories of becoming a psychologist / Katrin Kullasepp -- How can the diversity of human lives be expressed using TEM? : depicting the experiences and choices of infertile women unable to conceive after infertility treatment / Yuko Yasuda -- Exploring the transgenerational transmission of trauma in a cultural life course perspective / Nina Dalgaard and Pernille Hviid -- Meaning construction and its transformation in narratives about music with a personal meaning : music therapy in group counseling for juvenile delinquents / Kakuko Matsumoto -- TEM and dialogical self theory : how to understand a marriage problem? / Hubert Hermans -- Compositionwork and tem : studying the self in irreversible time / Agnieszka Konopka and Wim van Beers -- A dialogical self : trajectory equifinality model for higher education persistence/abandoning of study / Mauricio Corte?s -- Contribution of TEM to lifespan development psychology from life story / Masakuni Tagaki -- From the as if to the as is : the emergence of a research project / Eugenia Gouvedari -- TEM model and Brazilian research on developmental transitions / Ana Ceci?lia Bastos -- Extending the trajectory equifinality model's conceptual and methodological toolkit to account for continuous development / Eric Jensen and Brady Wagoner.
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200 10$aPlant genes, genomes, and genetics /$fErich Grotewold, Joseph Chappell, Elizabeth Kellogg ; cover illustration by Debbie Maizels
210  1$aChichester, England :$cWiley Blackwell,$d2015.
210  4$d©2015
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327   $aCover; Table of Contents; Title Page; Copyright; Acknowledgements; Introduction; About the Companion Website; Part I: Plant Genomes and Genes; Chapter 1: Plant Genetic Material; 1.1 DNA is the genetic material of all living organisms, including plants; 1.2 The plant cell contains three independent genomes the plant cell contains three independent genomes; 1.3 A gene is a complete set of instructions for building an RNA molecule; 1.4 Genes include coding sequences and regulatory sequences
327   $a1.5 Nuclear genome size in plants is variable but the numbers of protein-coding, non-transposable element genes are roughly the same1.6 Genomic DNA is packaged in chromosomes; 1.7 Summary; 1.8 Problems; References; Chapter 2: The Shifting Genomic Landscape; 2.1 The genomes of individual plants can differ in many ways; 2.2 Differences in sequences between plants provide clues about gene function; 2.3 SNPs and length mutations in simple sequence repeats are useful tools for genome mapping and marker assisted selection; 2.4 Genome size and chromosome number are variable
327   $a2.5 Segments of DNA are often duplicated and can recombine2.6 Some genes are copied nearby in the genome; 2.7 Whole genome duplications are common in plants; 2.8 Whole genome duplication has many effects on the genome and on gene function; 2.9 Summary; 2.10 Problems; Further reading; References; Chapter 3: Transposable Elements; 3.1 Transposable elements are common in genomes of all organisms; 3.2 Retrotransposons are mainly responsible for increases in genome size; 3.3 DNA Transposons create small mutations when they insert and excise
327   $a3.4 Transposable elements move genes and change their regulation3.5 How are transposable elements controlled?; 3.6 Summary; 3.7 Problems; References; Chapter 4: Chromatin, Centromeres and Telomeres; 4.1 Chromosomes are made up of chromatin, a complex of DNA and protein; 4.2 Telomeres make up the ends of chromosomes; 4.3 The chromosome middles - centromeres; 4.4 Summary; 4.5 Problems; Further reading; References; Chapter 5: Genomes of Organelles; 5.1 Plastids and mitochondria are descendants of free-living bacteria; 5.2 Organellar genes have been transferred to the nuclear genome
327   $a5.3 Organellar genes sometimes include introns5.4 Organellar mRNA is often edited; 5.5 Mitochondrial genomes contain fewer genes than chloroplasts; 5.6 Plant mitochondrial genomes are large and undergo frequent recombination plant; 5.7 All plastid genomes in a cell are identical; 5.8 Plastid genomes are similar among land plants but contain some structural rearrangements; 5.9 Summary; 5.10 Problems; Further reading; References; Part II: Transcribing Plant Genes; Chapter 6: RNA; 6.1 RNA links components of the central dogma; 6.2 Structure provides RNA with unique properties
327   $a6.3 RNA has multiple regulatory activities
330   $aPlant Genes, Genomes and Genetics provides comprehensive treatment of all aspects of plant gene expression. Unique in explaining the subject from a plant perspective, it highlights the importance of gene expression in how plants interface with the modern world, and notes the many aspects of gene expression that were first discovered in plants.This reference covers topics ranging from plant genome structure and the key control points in how genes are expressed, to the mechanisms by which proteins are generated and how their activities are controlled and altered by posttranslational modificatio
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