ライフサイエンスコーパス: genetic process

1 The formation of crossovers is a fundamental genetic process.

2 -A chromatin is influenced by epigenetic and genetic processes.

3 ly, its shape reflects underlying population genetic processes.

4 strands, is crucial in modulating a host of genetic processes.

5 e critical to the regulation of cellular and genetic processes.

6 tween natural selection and other population genetic processes.

7 biomolecular "switches", regulating various genetic processes.

8 irm its relation to certain pathological and genetic processes.

9 from the passenger strand may regulate many genetic processes.

10 erstanding the molecular mechanisms of these genetic processes.

11 s interfering with DNA replication and other genetic processes.

12 tous phenomenon which is critical in various genetic processes.

13 -binding proteins, feature in many regulated genetic processes.

14 ecule is often crucial for the regulation of genetic processes.

15 e factors are governed by common or distinct genetic processes.

16 - can become established through population genetic processes.

17 emselves, as it can enable new insights into genetic processes.

18 es in its ensemble and their significance in genetic processes.

19 Immunity is governed by fundamental genetic processes.

20 ding the potential of RNA to support complex genetic processes.

21 tic cascade, and discuss how genetic and non-genetic processes act in concert to confer metastatic co

22 nmental parameters, demography and different genetic processes all combine to influence the specific

23 Population genetic processes also affect the evolution of genomes.

24 an be characterized by a complex and dynamic genetic process and may advance our understanding of mic

25 Instead, the code may be a record of genetic process and patterns of mutation before the radi

26 ges play central roles in a great variety of genetic processes and increase the rate of evolutionary

27 We sought to identify the population genetic processes and molecular genetic events that caus

28 refore, a better understanding of population genetic processes and their effect on biogeography is ne

29 vitable consequence of complex developmental-genetic processes and thus requires no explanation in te

30 , the BE showed abundant gene expression for genetic processing and slow progress in physiological de

31 scent with modification, that evolution is a genetic process, and that humans are closely related to

32 ts highlight the critical need to assess the genetic processes associated with their declines so that

33 This study provides novel insights into genetic processes associated with tinnitus and tinnitus-

34 e foundation for deeper understanding of the genetic processes behind M. robertsii adaptive phenotype

35 ragmentation of parasites and the population genetics processes behind their diversification in an ef

36 long-term monitoring of different molecular-genetic processes by nuclear imaging techniques in human

37 disequilibrium generated by other population genetic processes by virtue of being nonoverlapping as w

38 The population genetic processes by which these traits evolve are compl

39 s show that other demographic and population genetic processes can account for this observation, thes

40 rstanding these organism-level and molecular genetic processes can be used for crop plant improvement

41 Two distinct population genetic processes can produce ecological specialization-

42 ed a new understanding of the historical and genetic processes crucial to rapid phenotypic evolution

43 Regulation of fundamental genetic processes demands dynamic participation of trans

44 f natural selection, but do these population-genetic processes drive the movement of genes to the nuc

45 ation where it modulates both epigenetic and genetic processes engaged by cocaine.

46 taxa to be made, as some of the fundamental genetic processes for constructing the trunk segments ar

47 ested for PET imaging of different molecular-genetic processes for potential clinical use.

48 Yet, the genetic processes giving rise to this stunning structura

49 ging from a quantification of the population genetic processes governing genome size, to the role of

50 The roles of topoisomerases in various genetic processes have been widely described, but the ca

51 h Europe, yet our knowledge about social and genetic processes here remains sparse.

52 We show that the ancestral genetic process in a large population without recombinat

53 ued research on the cellular, molecular, and genetic process in tumorigenesis is rapidly evolving.

54 As understanding of molecular and genetic processes in cancer evolves, so does appreciatio

55 y independent roles for both demographic and genetic processes in driving colonisation success.

56 and rate/interference are driven by distinct genetic processes in female pigs and have the capacity t

57 t approach for multimodal in vivo imaging of genetic processes in the vasculature.

58 Understanding of cellular, molecular, and genetic processes in tumorigenesis is evolving rapidly.

59 is increased understanding of molecular and genetic processes in tumorigenesis.

60 me are critical to understanding fundamental genetic processes including cell division and gene regul

61 on (HJ) is a central intermediate in various genetic processes including homologous and site-specific

62 unction is a central intermediate in various genetic processes including homologous, site-specific re

63 icitly interrogating multiple ecological and genetic processes including spatial variation in selecti

64 on (HJ) is a central intermediate of various genetic processes, including homologous and site-specifi

65 In this review, it is argued that many genetic processes, including ploidy, dominance, heritabi

66 thods to elucidate individual and population genetic processes, including population size history, mi

67 in that restricts access to DNA and inhibits genetic processes, including transcription and recombina

68 proximately 450 million years ago as a rapid genetic process independent of antigenic selection.

69 de insights into the regulatory mechanism of genetic processes involving HJs.

70 embrane proteins were produced by a two-step genetic process, involving cloning of Omp genes in V. ch

71 The population-genetic processes leading to the genetic degeneration of

72 nalyses using FUMA to further understand the genetic processes linked to tinnitus and tinnitus-relate

73 GWAS using the UK Biobank to investigate the genetic processes linked to tinnitus and tinnitus-relate

74 s have discovered the importance of numerous genetic processes - most notably functional regulatory e

75 atest challenges in biology, because it is a genetic process much more important than thought at the

76 epresent the substrate upon which population genetic processes must act to explain the origin of evol

77 The reverse genetics process produced infectious virus that was neut

78 oanatomical differences were associated with genetic processes relevant to neuroanatomical phenotypes

79 regulate these intracellular biochemical and genetic processes remain to be fully understood.

80 Genetic processes require direct interactions between pr

81 Genetic processes require the activity of multiple topoi

82 his organization is likely to influence many genetic processes, requiring access to the underlying DN

83 the initial groundwork for understanding the genetic processes responsible for triplet repeat mutatio

84 on while remaining fully permissive to other genetic processes such as recombination or integration.

85 r homologous genetic recombination and other genetic processes such as replication and repair.

86 supercoiling plays an important role in many genetic processes such as replication, transcription, an

87 interpreting the data in terms of population genetics processes such as genetic drift, balancing and

88 evolution that combines both demographic and genetic processes, such as gene flow and migration, gene

89 e shapecontra mating patterns and population genetic processes, such as inbreeding and outbreeding de

90 Furthermore, population genetic processes, such as selective sweeps, background

91 Homologous recombination is a universal genetic process that plays multiple roles in the biology

92 nkage disequilibrium, reviews the population genetic processes that affect it and describes some of i

93 d offer a good opportunity to understand the genetic processes that allow the maintenance of polymorp

94 dels of the interplay between nongenetic and genetic processes that contribute to the emergence of dr

95 f evolutionary genetics is to understand the genetic processes that give rise to phenotypic diversity

96 d to fundamental insights into the molecular genetic processes that govern cancer initiation, progres

97 from its binding dynamics to the population genetic processes that govern the evolution of the zinc

98 erns they observe in terms of the population genetic processes that have given rise to them; here, th

99 an be divided into two categories: intrinsic genetic processes that lead to the preferential rearrang

100 s it an ideal investigative model to examine genetic processes that may drive neurodegenerative disea

101 ological diversity in animals and one of the genetic processes that might have contributed to this is

102 ps between species, to expose the population-genetic processes that operate along its branches.

103 formation are decoupled from demographic and genetic processes that promote the formation of populati

104 es, are fostering a greater understanding of genetic processes that shape genome evolution and specia

105 In order to gain better insight into the genetic processes that underlie variation in complex phe

106 r in disease genes expand by a non-Mendelian genetic process to cause several human hereditary syndro

107 the possible contribution of epigenetic and genetic processes to these irreversible changes.

108 Whether or not these population genetic processes translate to more species at macroevol

109 mic analyses of extant species to assess the genetic processes underlying Pleistocene palaeontologica

110 germ-line and somatic events have elucidated genetic processes underlying premalignant progression an

111 or how a more mechanistic examination of the genetic processes underlying species recovery can foster

112 rofit from a new focus on the search for the genetic processes underlying specific cognitive function

113 The results shed light on the population genetic processes underlying the formation of nascent sp

114 , and in our understanding of the population genetic processes which are involved in their evolution.

115 n positive-strand RNA viruses is a molecular-genetic process, which permits the greatest evolution of