ライフサイエンスコーパス: embryology

1 e 'Law of Development' or 'von Baer's law of embryology'.

2 alysis in developmental biology and clinical embryology.

3 when presenting aneuploidy studies in human embryology.

4 e the celiac artery (CA) variations based on embryology.

5 velopmental biologists since the founding of embryology.

6 The concept of an "organizer" is basic to embryology.

7 vertebrate zebrafish is a favorite model for embryology.

8 ments that form the foundations of amphibian embryology.

9 data, cis-regulatory analysis, and molecular embryology.

10 protocols for their application to molecular embryology.

11 these approaches in the context of molecular embryology.

12 d to Rosa Beddington, a pioneer in mammalian embryology].

13 Our comparative embryology analysis provides insights into early lineage

14 for studies on the fundamental mechanisms of embryology and adult physiology and for investigating th

15 Here, we combine comparative embryology and anatomy to reconstruct the mesodermal con

16 Here, we combine mycology, embryology and chemistry by testing secondary metabolite

17 formations requires a clear understanding of embryology and developmental morphology through the vari

18 ntal questions remaining at the frontiers of embryology and early human development.

19 is article explains how the plain Journal of Embryology and Experimental Morphology (JEEM) turned int

20 elopment (called at that time the Journal of Embryology and Experimental Morphology).

21 nsightful papers published in the Journal of Embryology and Experimental Morphology, in which he prov

22 Sharing in embryology and function between the eye and brain has le

23 A combination of embryology and gene identification has led us to the cur

24 By using experimental embryology and genetic approaches in birds and mice, res

25 Over a century of experimental embryology and genetics have revealed an incredible dive

26 m is proposed, based wherever possible, upon embryology and genetics.

27 werfully informed by comparative morphology, embryology and genomics of chordates, hemichordates and

28 The work illuminates embryology and has important implications for making mor

29 e GCMB gene impairs normal parathyroid gland embryology and is responsible for isolated hypoparathyro

30 written of the early history of comparative embryology and its influence on the emergence of an evol

31 Here we combine experimental embryology and mathematical modelling to analyse the rol

32 lation of stem cells has evidence in classic embryology and more recently in adult stem cells through

33 arise this information, link it to classical embryology and propose a molecular framework for the est

34 imental system to advance knowledge of human embryology and reproduction.

35 n development, thereby helping advance human embryology and reproductive medicine.

36 segmental organization, and (2) comparative embryology and the neural tube's transverse and longitud

37 ing of the polarity of cholangiocytes, their embryology and ultrastructural anatomy, and in vivo huma

38 tionships between adipose tissue (histology, embryology, and adipogenesis) and cardiovascular medicin

39 nterest since the early days of experimental embryology, and constitutes the best understood system i

40 rvous system is based on studies of anatomy, embryology, and evolution.

41 where cis-regulatory evidence, experimental embryology, and network analysis combine to provide a co

42 f evidence, such as mitogenomes, comparative embryology, and sperm morphology, which produced results

43 e European Society of Human Reproduction and Embryology, and the European Society for Gynaecological

44 major role in the formation of experimental embryology, and they are returning as the need for knowl

45 sue masses is a recurrent theme in mammalian embryology, and this process plays an integral role in t

46 Our comparative embryology approach uncovered intriguing differences as

47 Using experimental embryology approaches, this study reveals three separabl

48 Since 1991, the Human Fertilisation and Embryology Authority (HFEA) has been collecting informat

49 T) in the US and the Human Fertilization and Embryology Authority (HFEA) in the United Kingdom.

50 spective study of UK Human Fertilisation and Embryology Authority data, we investigated whether perin

51 s a model with all the benefits of amphibian embryology but crucially only a single Mix and Nodal gen

52 st experienced in molecular cell biology and embryology can reproduce this protocol in 12-16 weeks.

53 been the subject of studies in experimental embryology, cell lineage, and the organization of the la

54 of fossilization and providing insight into embryology during the emergence of metazoan phyla.

55 and provides a platform for advancing human embryology.Early in human embryonic development, it is u

56 As marking tools for experimental embryology emerged, the cellular events of cortical hist

57 Despite the importance of human embryology, ethical and legal restrictions have limited

58 European Society of Human Reproduction and Embryology, European Society for Gynaecological Endoscop

59 r wing origins finds support from studies of embryology, evo-devo, and genomics, although the degree

60 Classical embryology experiments have indicated the existence of d

61 dominated thinking in amphibian experimental embryology for many decades.

62 e explore how recent studies of experimental embryology, genetic circuits and stem cell differentiati

63 treatment modalities, anatomy and pathology, embryology, genetics, epidemiology, and imaging.

64 ications of microarray technologies to mouse embryology/genetics have been limited, due to the nonava

65 gnathostomes), they provide insight into the embryology, genomics, and body plan of the ancestral ver

66 Embryology has offered important insights into key pathw

67 Classical embryology has provided a clear view of the timing and h

68 ut recent progress in molecular genetics and embryology has revealed deep similarities in body-axis f

69 A combination of genetics and embryology has uncovered the organisation and function o

70 Classical experiments in embryology have shown that normal growth, morphogenetic

71 10 years, the continued exploration of human embryology holds promise to revolutionize regenerative a

72 attributes of the zebrafish model system in embryology, imaging, and scalability have been used to i

73 ent would enhance our understanding of basic embryology, improve applications of the technology, supp

74 The results of this comparative embryology in conjunction with genetic experiments on Dr

75 oning and Shh expression, using experimental embryology in ovo in the chick.

76 I here review some of the milestones of embryology in which the sea urchin was the key player, s

77 presenting urodele amphibians, since urodele embryology is basal to amphibians and was conserved duri

78 Pertinent embryology is discussed and the classification is justif

79 ussion of the important events of pancreatic embryology is followed by presentation of congenital ano

80 models are still very complex, and the human embryology is still poorly understood.

81 Developmental biology (including embryology) is proposed as "the stem cell of biological

82 ng amniotes has implications for dinosaurian embryology, life history strategies, and survivorship ac

83 Unearthing embryology-like processes in tumors may allow us to cont

84 Modern Synthesis of genetics and evolution: embryology, macroevolution, and homology.

85 hology, but within the field of experimental embryology mathematical descriptions of anatomical form

86 because they preserve the earliest stages of embryology of animals that represent the initial diversi

87 The embryology of basal angiosperm lineages (Amborella, Nymp

88 sease in the young promises new insight into embryology of cardiac development and improved understan

89 chromatin remodellers, illuminates the patho-embryology of CHARGE syndrome, and suggests a broader fu

90 Although the gross embryology of inner ear development has been documented

91 Finally, in accord with the distinct embryology of retinal pigmented cells, transgenic mice w

92 Some of the classical embryology of the endoderm is discussed and the progress

93 ade great strides in understanding the early embryology of the kidney and the molecular signals invol

94 n lymphangiogenesis, an understanding of the embryology of the mammalian lymphatic system, the recent

95 Whereas the embryology of the normal venous pole and PV is becoming

96 Although the embryology of the palate has long been studied, the past

97 view focuses on recent advances in molecular embryology of the upper and lower urinary tract with an

98 In this review, we present the descriptive embryology of this process as well as the recent data th

99 Combining fields as diverse as comparative embryology, palaeontology, molecular phylogenetics and g

100 ntologies for anatomy, cell types, function, embryology, pathology and other domains.

101 ith an intact atrial septum, including their embryology, pathophysiology, imaging features, and manag

102 be traced back to Joseph Needham's 'Chemical Embryology', published in the 1930s.

103 ta to improve predictive accuracy in several embryology-related tasks in IVF.

104 ight ventricles of the human heart differ in embryology, shape, thickness, and function.

105 ortant organism in the fields of zoology and embryology since the 18(th) century, and the morphologic

106 At the level of descriptive embryology, skeletogenesis in Sp and Et has long been kn

107 Molecular and embryology studies have demonstrated that mouse pre-impl

108 eing used to answer fundamental questions in embryology, such as how cells self-organize and assemble

109 the comparative, human and even experimental embryologies that preceded it, as well as the embryology

110 mbryologies that preceded it, as well as the embryology that was institutionalized in reproductive bi

111 t as with many conclusions from experimental embryology, the idea that the dorsal lip of the blastopo

112 ersy remains regarding etiology, anatomy and embryology, the role of prenatal diagnosis and mode of d

113 neglected, and scrutiny in modern molecular embryology tilted, instead, towards the dissection of mo

114 Experiments employing chick embryology, tissue culture, and gene targeting in mice s

115 k philosopher Aristotle through 19th century embryology to 20th century genetics.

116 Using experimental embryology to discriminate among these models, we show h

117 While traditional experimental embryology tools have been instrumental in dissecting th

118 acts of transcription factor perturbation in embryology, transcription factors bind to far more sites

119 nly used in amphibian and avian experimental embryology, we either grafted or deleted the region of t

120 lecular, genetic and classical techniques of embryology, we have investigated the role of T in allant

121 ng the OCT features, available evidence, and embryology, we propose that the true nature of CHRRPE sh