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Artigos de revistas sobre o assunto "Developmental neurophysiology Genetic aspects"
Winter, R. M. "Genetic Aspects of Developmental Pathology". Journal of Medical Genetics 25, n.º 2 (1 de fevereiro de 1988): 141. http://dx.doi.org/10.1136/jmg.25.2.141.
Texto completo da fonteScharloo, W. "Canalization: Genetic and Developmental Aspects". Annual Review of Ecology and Systematics 22, n.º 1 (novembro de 1991): 65–93. http://dx.doi.org/10.1146/annurev.es.22.110191.000433.
Texto completo da fonteRegehr, Sonya M. "The genetic aspects of developmental dyslexia." Canadian Journal of Behavioural Science / Revue canadienne des sciences du comportement 19, n.º 3 (1987): 239–53. http://dx.doi.org/10.1037/h0079988.
Texto completo da fontePostma, Alex V., Lukas R. C. Dekker, Alexandre T. Soufan e Antoon F. M. Moorman. "Developmental and Genetic Aspects of Atrial Fibrillation". Trends in Cardiovascular Medicine 19, n.º 4 (maio de 2009): 123–30. http://dx.doi.org/10.1016/j.tcm.2009.07.003.
Texto completo da fontePaoli, Marco, e Giovanni C. Galizia. "Olfactory coding in honeybees". Cell and Tissue Research 383, n.º 1 (janeiro de 2021): 35–58. http://dx.doi.org/10.1007/s00441-020-03385-5.
Texto completo da fonteAlkhzouz, Camelia, Simona Bucerzan, Maria Miclaus, Andreea-Manuela Mirea e Diana Miclea. "46,XX DSD: Developmental, Clinical and Genetic Aspects". Diagnostics 11, n.º 8 (30 de julho de 2021): 1379. http://dx.doi.org/10.3390/diagnostics11081379.
Texto completo da fonteSrivastava, Deepak. "Developmental and genetic aspects of congenital heart disease". Current Opinion in Cardiology 14, n.º 3 (maio de 1999): 263. http://dx.doi.org/10.1097/00001573-199905000-00011.
Texto completo da fonteLevy, Avraham A., Anne Bagg Britt, Kenneth R. Luehrsen, Vicki L. Chandler, Christine Warren e Virginia Walbot. "Developmental and genetic aspects ofMutator excision in maize". Developmental Genetics 10, n.º 6 (1989): 520–31. http://dx.doi.org/10.1002/dvg.1020100611.
Texto completo da fonteVeenma, D. C. M., A. de Klein e D. Tibboel. "Developmental and genetic aspects of congenital diaphragmatic hernia". Pediatric Pulmonology 47, n.º 6 (29 de março de 2012): 534–45. http://dx.doi.org/10.1002/ppul.22553.
Texto completo da fonteMORSE, ANDREW C., JOHN L. BEARD e BYRON C. JONES. "A Genetic Developmental Model of Iron Deficiency: Biological Aspects". Proceedings of the Society for Experimental Biology and Medicine 220, n.º 3 (março de 1999): 147–52. http://dx.doi.org/10.1046/j.1525-1373.1999.d01-22.x.
Texto completo da fonteTeses / dissertações sobre o assunto "Developmental neurophysiology Genetic aspects"
Tosch, Paul. "Investigations of ephrin ligands during development". Title page, abstract and table of contents only, 2002. http://web4.library.adelaide.edu.au/theses/09PH/09pht713.pdf.
Texto completo da fonteGauthier, Julie. "Genetic investigation of pervasive developmental disorders in the Quebec population". Thesis, McGill University, 2005. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=100369.
Texto completo da fonteOne aim of the present study was to search for genetics variants associated with autism and other related disorders. This study represents the first family-based association study looking at the entire X chromosome using a French-Canadian autistic population, a genetically homogenous group. We found association between autism and markers at two loci. Our results support the existence of a putative gene located on the X chromosome and moreover the founder effect, in the French-Canadian population, may provide greater power to fine map disease genes especially in complex traits.
The second aim of the present thesis was to confirm the involvement of the MECP2 gene in our RTT group of patients. While we confirm the presence of mutations in this gene in our cohort of RTT patients we also demonstrated that clinical stringency greatly influences the mutation detection rate for this disorder.
Law, Kit-fong Stephanie, e 羅潔芳. "The molecular consequences of Indian hedgehog mutations in distal digit patterning". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2004. http://hub.hku.hk/bib/B31353253.
Texto completo da fonteMorgan, Vera Anne. "Intellectual disability co-occurring with schizophrenia and other psychiatric illness : epidemiology, risk factors and outcome". University of Western Australia. School of Psychiatry and Clinical Neurosciences, 2008. http://theses.library.uwa.edu.au/adt-WU2008.0209.
Texto completo da fonteMoers, Virginie. "Contribution à l'étude de la fonction des facteurs BTBD6 et DMRT5 au cours du développement embryonnaire". Doctoral thesis, Universite Libre de Bruxelles, 2008. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/210408.
Texto completo da fonte\
Doctorat en Sciences
info:eu-repo/semantics/nonPublished
Tosch, Paul. "Investigations of ephrin ligands during development / by Paul Tosch". Thesis, 2002. http://hdl.handle.net/2440/21884.
Texto completo da fonteAddendum inside back cover.
Bibliography: p. 139-157.
174 p. : ill. (some col.), col. plates ; 30 cm.
Aims to isolate ephrin ligands from Drosophila melanogaster and analyse their involvement in Drosophila deveopment. Also investigates the potential of ephrin B-1 as a causative gene in the human condition Aicardi's syndrome.
Thesis (Ph.D.)--University of Adelaide, Dept. of Molecular Biosciences, 2003
Qi, Hongjian. "Computational genomics and genetics of developmental disorders". Thesis, 2018. https://doi.org/10.7916/D8N02QDR.
Texto completo da fonte"Studies of candidate genes for susceptibility to developmental dyslexia". 2012. http://library.cuhk.edu.hk/record=b5934633.
Texto completo da fonte在過往歐洲的研究樣本中’位於KAA0319基因5'-上游的基因變異重複地被找出與讀寫障礙有關的閱讀特徵有關。過往研究亦指出位於KIAA0319的假定調控區上的單核苷酸多態性(SNP)顯示與KIAA0315的基因表達有關。唯本項研究於這區域並無發現陽性結果。為了找出這區域中與讀寫障礙有關聯但未被本研究策略選擇使用基因組單體型圖的標籤-單核苷酸多態性(Hapmap Tag-SNPs)的基因變異,本研究對KAM0319基因的5'-上游進行了基因组重测序。其中發現的3個短序變異(-121的rs6456625,-128到- 1 5 4 的r s 7 1 8 1 5 1 4 3 及- 1 5 7 的6 > A )出現了不同的榮光素酶報告基因活動,當中單体型A-DEL-A的活動訊號最高,而G-INS-G則最低。然而,它們的等位基因和單体型基因出現率於讀寫障礙樣本與對照組沒有顯著不同。
至今有關對KIAA0319基因抑制的行為研究仍然不足。本研究亦對位於果繩的CG7565基因,即KIAA0319的同源基因’進行特性分析。CG7565在果繩的發展階段出現了不同的表達水平及基因剪接形式。本研究使用了UAS-RNAi糸統和飛行模擬器對CG7565基因抑制的果繩的行為變化作出了分析,結果顯示於泛神經基因抑制晰/+; e/aV-Gal4/+; 3707/+及晰/+; e/av-Gal4/+; 8396/+的果蠅視覺模式記憶出現了缺陷。當CG7565在果繩大腦中央複合區的神經元F5(扇形體)和R2/R4m(摘球体)被基因抑制時,果繩視覺模式記憶亦出現了缺陷。是次有關M/PL119的遺傳關聯研究跟以往MRPL19中5'-上游與讀寫障礙的關聯報導的一致’顯示這可能是真正的致病序列變異的位置。在M/PL119上的假定調控區進行基因突變分析顯示,在其中一個讀寫障礙的樣本中發現一個新的序列變化(-647 T>G),而在對照組則沒有發現此變化。計算機預測模型分析估計這個序列變化會取消了熱休克轉錄因子1的結合位點。攜帶了 G等位基因的調控區會增加榮光素酶的活動。這種變異的作用必須得到進一步的證實。我們亦觀察到在其中兩個讀寫障礙樣本中出現了非孟德爾遺傳,在一個個体身上帶有3或4種單倍型的基因。基因拷貝數目變異或基因轉換可能是一個引至這種現象的因素。
Developmental dyslexia is a learning disability characterized by difficulties in acquisition of reading and writing skills not due to intelligence, motivation or schooling. Being the most common form of learning disability (80%), it affects 10% of schoolchildren worldwide. Research delineating genetic factors in developmental dyslexia identified loci and candidate genes in Caucasian populations, although disease mechanisms are still unknown. Four loci covering eleven genes (DYX1, DYX2, DYX3, DYXS) were tested for association in 131 Chinese families with dyslexic children in our study. Tagged-SNPs selected from International HapMap Consortium and reported SNPs were used as markers for this study. Positive associations with dyslexia were found in two genes, DYX1C1 (rs3743205, padjusted=0.0072, OR =0.08 (95% CI: 0.01 - 0.64)) and MRPL19(rs2422229-rs7570229, risk haplotype T-G,Padjusted=0.0020, OR = 2.345 (95% CI: 1.402 一 3.923)), in our study. SNPs associated with several reading-related traits were also identified: DYX1C1(rs3743205) associated with Rapid Naming (Digit Rapid Naming), Phonological Memory (Non-word repetition),Orthographic skill (Left-Right Reversal); KIAA0319 (rs2760157-rs807507) with honological awareness (Onset Detection); MRPL19 (rs2422229-rs7570229) with Orthographic knowledge (Radical Position); SFPQ and ZMYM4 (rs3738697 - rs12093076) with Orthographic knowledge (Lexical Decision). This is the first genetic study in Chinese dyslexia (Lim et al.2011), and results provide knowledge into dyslexia in populations using different languages.
Variants located 5' upstream of KIAA0319 were consistently reported for association with DD reading-related traits in European samples. A SNP in the putative promoter of KIAA0319 showed functional significance in KIAA0319 expression. However, no positive result of this region is found in this study. Resequencing of the 5' upstream of KIAA0319 was done to reveal potentially associated variants not selected using current strategies in genetic association (Hapmap Tagged-SNPs). A short sequence fragment of 3 variants (-121 rs6456625, -128 to -154 rs71815143 and -157 G>A) show differential luciferase activities, haplotype A-del-A have highest signal, G-Ins-G the lowest. However, allele and haplotype frequencies in dyslexia samples were not significantly different from controls.
Direct behavioral study of KIAA0319-knockdown is still inadequate. A homolog of KIAA0319, CG7565 in Drosophila, was characterized. Differential gene expression and splicing forms were observed during Drosophila development stages. Using UAS-RNAi system and flight simulator to study behavioral change in CG7565-knockdown Drosophila showed pan-neural knockdown lines w/+; elav-Gal4/+; 3707/+ and w/+; elav-Gal4/+; 8396/+ are defective in visual pattern memory. The study of neuronal specific knockdown showed this memory was impaired when CG7565 was selectively knocked down in F5 neuron (fan-shaped body) and R2/R4m (ellipsoid body) of the central complex in Drosophila brain.
Our genetic association study of MRPL19 agrees with reports of the association of 5' upstream of MRPL19 with DD, showing that true causative sequence variants may lie here. Mutational analyses of the putative promoter of MRPL19 revealed a novel sequence change T>G at -647 in a dyslexic sample not found in controls. In-silico analysis indicates a binding site of heat shock factor-1 that is predicted to be abolished by this variant. Luciferase activity increased in the promoter carrying the G allele. The role of this variant must be confirmed. Non-Mendelian Inheritance was observed in 2 individual dyslexic samples with 3 and 4 types of haplotypes. Copy number variation or gene conversion may be a factor.
Detailed summary in vernacular field only.
Detailed summary in vernacular field only.
Detailed summary in vernacular field only.
Lim, King Poo.
Thesis (Ph.D.)--Chinese University of Hong Kong, 2012.
Includes bibliographical references (leaves 201-225).
Abstracts also in Chinese.
Dedication --- p.I
Abstract --- p.II
摘要 --- p.IV
Acknowledgements --- p.V
Table of contents --- p.VI
List of Figures --- p..XI
List of Tables --- p.XIV
List of Abbreviations --- p.XVII
Chapter 1. --- Chapter 1 --- p.1
Genetic Association of dyslexia-candidate genes in Chinese children with dyslexia --- p.1
Chapter 1.1. --- Introduction --- p.2
Chapter 1.2. --- Prevalence --- p.4
Chapter 1.3. --- Definition --- p.7
Chapter 1.4. --- Theories of developmental dyslexia --- p.9
Chapter 1.4.1. --- Phonological deficit theory --- p.9
Chapter 1.4.2. --- Double deficit hypothesis --- p.10
Chapter 1.4.3. --- Cerebellar deficit theory --- p.11
Chapter 1.4.4. --- Magnocellular deficit theory --- p.12
Chapter 1.4.5. --- Deficits in Chinese people with dyslexia --- p.12
Chapter 1.5. --- Neurobiological aspects of Dyslexia --- p.15
Chapter 1.5.1. --- Postmortem studies --- p.15
Chapter 1.5.2. --- Structural Neuroimaging studies of dyslexia --- p.16
Chapter 1.5.3. --- Functional Neuroimaging studies --- p.17
Chapter 1.5.4. --- fMRI results in Chinese --- p.18
Chapter 1.6. --- Genetics of Dyslexia --- p.19
Chapter 1.6.1. --- Familial studies --- p.19
Chapter 1.6.2. --- Twin studies --- p.21
Chapter 1.6.3. --- Mode of Inheritance --- p.24
Chapter 1.6.4. --- Genetic mapping of disease gene --- p.26
Linkage analysis --- p.26
Association study --- p.29
Molecular genetic findings in dyslexia --- p.33
Chapter 1.6.5. --- Statement of Research Rationale --- p.47
Chapter 1.6.6. --- Objectives --- p.48
Chapter 1. --- Chapter 2 --- p.49
Genetic association of dyslexia-candidate genes in Chinese children with dyslexia --- p.49
Chapter 2.1. --- Introduction --- p.50
Chapter 2.2. --- Materials and methods --- p.51
Chapter 2.2.1. --- Subjects --- p.51
Chapter 2.2.2. --- DNA extraction and genotyping --- p.54
Chapter 2.2.3. --- SNP marker selection --- p.55
Chapter 2.2.4. --- Statistical analyses --- p.57
Chapter 2.3. --- Results --- p.59
Chapter 2.3.1. --- DYX1C1 --- p.59
Single marker analysis --- p.59
Haplotype analyses --- p.62
Chapter 2.3.2. --- KIAA0319 --- p.67
Association of KIAA0319 with Chinese dyslexic children --- p.67
Association of KIAA0319 with reading related traits --- p.67
Chapter 2.3.3. --- DCDC2 --- p.74
Association of DCDC2 with Chinese dyslexic children --- p.74
Chapter 2.3.4. --- MRPL19 and C2orf3 --- p.78
Haplotypes located within 5' upstream of MRPL19 are significantly associated with DD --- p.78
Association of the 5' upstream variants with reading related traits --- p.79
Chapter 2.3.5. --- KIAA0319L and its surrounding genes --- p.85
Association of KIAA03190L and its surrounding genes with Chinese dyslexic children --- p.85
Chapter 2.3.6. --- Gene-Gene interaction analyses --- p.88
Chapter 2.3.7. --- Parent-of-origin analysis --- p.92
Chapter 2.4. --- Discussion --- p.94
Chapter 2.4.1. --- DYX1C1 variant associated with DD and reading skills --- p.94
Chapter 2.4.2. --- KIAA0319 associated with phonological awareness in Chinese --- p.99
Chapter 2.4.3. --- DCDC2 is not associated with DD in Chinese children --- p.108
Chapter 2.4.4. --- Association of MRPL19 and C2ORF3 in a Chinese sample --- p.111
Chapter 2.4.5. --- Association of KIAA03190L and its surrounding genes with Chinese children with dyslexia --- p.115
Chapter 2.4.6. --- Gene-Gene interaction --- p.118
Chapter 2.4.7. --- Parent-of-origin --- p.119
Chapter 2.5. --- Summary --- p.122
Chapter 3. --- Chapter 3 --- p.126
Resequencing analyses and characterization of 5' upstream of KIAA0319 --- p.126
Chapter 3.1. --- Introduction --- p.127
Chapter 3.2. --- Materials and Methods --- p.129
Chapter 3.2.1. --- DNA samples --- p.129
Chapter 3.2.2. --- DNA re-sequencing --- p.129
Chapter 3.2.3. --- KIAA0319 Promoter constructs --- p.131
Chapter 3.2.4. --- Luciferase Reporter Assays --- p.133
Chapter 3.2.5. --- In-silico sequence analyses --- p.133
Chapter 3.3. --- Results --- p.134
Chapter 3.4. --- Discussion --- p.143
Chapter 4. --- Chapter 4 --- p.148
Characterization of CG7565, a homolog of KIAA0319, in a Drosophila model --- p.148
Chapter 4.1. --- Introduction --- p.149
Chapter 4.2. --- Methods and Materials --- p.152
Chapter 4.2.1. --- Drosophila stock --- p.152
Chapter 4.2.2. --- Sequence analyses --- p.153
Chapter 4.2.3. --- RNA extraction and quantitative reverse-transcription PCR (RT-PCR) --- p.153
Chapter 4.2.4. --- Behavioral Assays --- p.156
Visual pattern memory assays --- p.156
Optomotor Response Assays --- p.158
Visual Discrimination Analyses --- p.159
Chapter 4.3. --- Results --- p.160
Chapter 4.4. --- Discussion --- p.174
Chapter 5. --- Chapter 5 --- p.181
Mutational analyses of 5' region of MRPL19 in children with dyslexia --- p.181
Chapter 5.1. --- Introduction --- p.182
Chapter 5.2. --- Materials and Methods --- p.183
Chapter 5.2.1. --- DNA samples --- p.183
Chapter 5.2.2. --- High resolution melting analyses (HRM) --- p.183
Chapter 5.2.3. --- MRPL19 promoter constructs --- p.185
Chapter 5.2.4. --- In-silico sequence analyses --- p.186
Queitsch, Christine. "Thermotolerance, buffering of genetic variation and developmental stability : different aspects of chaperone function in the plant Arabidopsis thaliana /". 2001. http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&res_dat=xri:pqdiss&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:3029529.
Texto completo da fonte"Pathogenesis of retinoic acid-induced developmental ocular defects studied using mouse models". Thesis, 2009. http://library.cuhk.edu.hk/record=b6074726.
Texto completo da fonteIn addition, detailed morphological and histological studies were conducted to determine if RA treatment caused early embryonic changes with strain difference. When compared with ICR embryos, C57 embryos exhibited more pronounced responses to RA, including developmental retardation, underdevelopment of the anterior neural plate and absence of or smaller optic pit/optic vesicle formation. However, RA treatment did not cause abnormal apoptosis in the early stages in both strains.
Since the teratogenic effect of RA is highly developmental stage-dependent, it is possible that there is a difference in the developmental stage between these 2 mouse strains at the time of RA injection. Indeed, it was found that the developmental stage of ICR embryos was approximately 6 hours ahead of C57 embryos. However, the role that this factor plays in the differential strain susceptibility to RA can be excluded since C57 fetuses were still 3 times more susceptible to developing anophthalmia/microphthalmia than ICR fetuses that were subject to RA treatment at equivalent developmental stages. Comparison of susceptibility to RA-induced anophthalmia/microphthalmia was also made among heterozygous fetuses obtained from reciprocal matings between C57 and ICR male and female mice, and those in homozygous ICR and C57 fetuses. Results showed that the C57 strain has conferred both genetic predisposition and maternal effects in increasing the embryo's susceptibility to RA-induced ocular defects.
Since the type of RA-induced ocular defects mimic those that developed in Raldh2 null mutant embryos, the effect of RA treatment on the expression of RA synthesizing enzymes, Raldh2 and Raldh3, and the RA-inducible gene Cyp26a1, as well as some early eye development genes were examined. Exogenously administered RA reduced the mRNA expression levels of Raldh2, Raldh3 and Cyp26a1 in the head region, with C57 embryos showing a greater reduction than ICR embryos.
Taken together, results of this thesis suggest that there is a strain difference in susceptibility to RA-induced ocular defects in which exogenously applied RA suppresses the expression of RA synthesizing enzymes and leads to endogenous RA deficiency. This finding may shed light on understanding why both excess and deficiency of RA can lead to similar types of ocular defects.
To determine if there are strain differences in the susceptibility to RA-induced ocular defects, two mouse strains were used. They are C57BL/6J (C57), mice that spontaneously develop ocular defects and ICR mice, which are not prone to developing ocular defects. Detailed time and dose response studies were conducted and eye defects were examined in near-term fetuses. C57 fetuses were found to be significantly more susceptible to RA-induced anophthalmia/microphthalmia than ICR fetuses.
Vitamin A (retinol) and its most active metabolite, all- trans retinoic acid (RA) is essential for vision in the adult and for eye development in the embryo. It is well documented that in humans, excess intake or deficiency of vitamin A or RA is associated with congenital ocular defects such as microphthalmia. However, the underlying mechanism remains unclear. The aim of this study is to examine the pathogenic mechanism of RA-induced developmental ocular defects.
Lau, Wing Sze Josephine.
Source: Dissertation Abstracts International, Volume: 71-01, Section: B, page: 0240.
Thesis (Ph.D.)--Chinese University of Hong Kong, 2009.
Includes bibliographical references (leaves 186-211).
Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Abstracts in English and Chinese.
Livros sobre o assunto "Developmental neurophysiology Genetic aspects"
Annapia, Verri, ed. Life span development in genetic disorders: Behavioral and neurological aspects. New York: Nova Science Publishers, 2008.
Encontre o texto completo da fonteSmith, Moyra. Mental retardation and developmental delay: Genetic and epigenetic factors. New York, N.Y: Oxford University Press, 2006.
Encontre o texto completo da fonteMarco, Cappa, ed. Endocrine involvement in developmental syndromes. Basel: Karger, 2009.
Encontre o texto completo da fonte1952-, Butler Merlin Gene, e Meaney F. John, eds. Genetics of developmental disabilities. Boca Raton: Taylor & Francis, 2005.
Encontre o texto completo da fonte1939-, Colombo Jorge A., ed. Poverty and brain development during childhood: An approach from cognitive psychology and neuroscience. Washington, DC: American Psychological Association, 2009.
Encontre o texto completo da fonteAging of the genome: The dual role of the DNA in life and death. Oxford ; New York: Oxford University Press, 2007.
Encontre o texto completo da fonteCornish, Kim. Attention, genes, and developmental disorders. Oxford: Oxford University Press, 2010.
Encontre o texto completo da fonteS, Tuan Rocky, e Lo Cecilia W, eds. Developmental biology protocols. Totowa, N.J: Humana Press, 2000.
Encontre o texto completo da fonteDodge, Kenneth A. Gene-environment interactions in developmental psychopathology. New York: Guilford Press, 2011.
Encontre o texto completo da fonteKazemie, Mirabotalib. The designs of biological forms, development, and initiation of cancer. Bloomington, IN: Authorhouse, 2009.
Encontre o texto completo da fonteCapítulos de livros sobre o assunto "Developmental neurophysiology Genetic aspects"
Davson, Hugh. "Neurophysiology of Perception: Developmental Aspects of Visual Field Characteristics". In Physiology of the Eye, 603–27. London: Macmillan Education UK, 1990. http://dx.doi.org/10.1007/978-1-349-09997-9_22.
Texto completo da fonteGoudie, R. B., A. S. Jack e B. M. Goudie. "Genetic and Developmental Aspects of Pathological Pigmentation Patterns". In Current Topics in Pathology, 103–39. Berlin, Heidelberg: Springer Berlin Heidelberg, 1985. http://dx.doi.org/10.1007/978-3-642-69574-2_3.
Texto completo da fonteIvanov, I. "Some Ethical Aspects of Genetic Aproaches to Human Health Care: A Developmental Geneticist’s Point of View". In Ethical Issues of Molecular Genetics in Psychiatry, 57–60. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-76429-5_5.
Texto completo da fonteEyre, J. A. "Developmental aspects of corticospinal projections". In Handbook of Clinical Neurophysiology, 27–57. Elsevier, 2004. http://dx.doi.org/10.1016/s1567-4231(04)04003-1.
Texto completo da fonteDahl, Niklas. "Chapter 6 Genetic aspects of diagnosis". In Handbook of Clinical Neurophysiology, 99–112. Elsevier, 2003. http://dx.doi.org/10.1016/s1567-4231(09)70116-9.
Texto completo da fonteBaloh, MD, FAAN, Robert W., Vicente Honrubia, MD, DMSc e Kevin A. Kerber, MD. "Developmental and Genetic Disorders". In Baloh and Honrubia's Clinical Neurophysiology of the Vestibular System, Fourth Edition, 383–401. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780195387834.003.0018.
Texto completo da fonteBarbara, Whitman Y. "Neuropsychiatric Aspects of Genetic Disorders". In Genetics of Developmental Disabilities, 743–98. CRC Press, 2019. http://dx.doi.org/10.1201/9780429264078-20.
Texto completo da fonte"Neuropsychiatric Aspects of Genetic Disorders". In Genetics of Developmental Disabilities, 769–92. CRC Press, 2005. http://dx.doi.org/10.1201/b14171-24.
Texto completo da fonteKotagal, Suresh. "Pediatric Sleep Assessment". In Clinical Neurophysiology, editado por Devon I. Rubin, 895–904. 5a ed. Oxford University PressNew York, 2021. http://dx.doi.org/10.1093/med/9780190067854.003.0051.
Texto completo da fonteGleissberg, Stefan. "Comparative developmental and molecular genetic aspects of leaf dissection". In Systematics Association Special Volumes, 404–17. CRC Press, 2002. http://dx.doi.org/10.1201/9781420024982.ch21.
Texto completo da fonte