ライフサイエンスコーパス: Mendel

1 Mendel also identifies the corresponding genes in indivi

2 Mendel and Darwin were contemporaries, with much overlap

3 Mendel can be searched through the mirror sites at Corne

4 Mendel had failed his tryout as a parish priest and did

5 Mendel is one of the few statistical genetics packages t

6 Mendel proposed that the heritable material is particula

7 Mendel recognized the importance of the new cell theory;

8 Mendel studied discontinuous traits and subsequent Mende

9 Mendel's contributions to evolutionary biology were fort

10 Mendel's First Law requires explanation because of the p

11 Mendel(1) studied in detail seven pairs of contrasting t

12 Mendel, Morgan, Bridges, and their heirs began with phen

13 Mendel-ESTS is primarily a database of plant ESTs, which

14 Mendel-GPU, our OpenCL software, runs on Linux platforms

15 rwin Medal of the Royal Society and the 2019 Mendel Medal of the Genetics Society (United Kingdom), d

16 ng recombination, came about 100 years after Mendel's famous experiments.

17 Although Mendel's first law predicts that crosses between XY (or

18 Fisher is both Darwin's achievement and Mendel's.

19 variation and schizophrenia from Darwin and Mendel to the present.

20 nfounding, reflecting their fixed nature and Mendel's first and second laws of inheritance.

21 In Darwin's and Mendel's times, researchers investigated a wealth of org

22 well-known story of possible contact between Mendel and Darwin and the actual contact between their i

23 modern theory based on the marriage between Mendel's and Darwin's ideas as forged most comprehensive

24 Moving instruction "beyond Mendel" can counter inaccurate, essentialist views.

25 otic drivers are genetic elements that break Mendel's law of segregation to be transmitted into more

26 ffspring with a probability that is given by Mendel's laws.

27 ws of inheritance that were not supported by Mendel's own experiments.

28 escent with modification-genes vertically by Mendel's laws, language via combinations of vertical, ob

29 t have attracted or perplexed a 21st century Mendel.

30 omedical research community to 'stop chasing Mendel?'

31 alculate correlation between variants, check Mendel consistency and perform data clustering.

32 endent assortment of homologous chromosomes (Mendel's second law).

33 pochs and foundational principles of Darwin, Mendel, and the modern synthesis in light of the current

34 ed annotation to plant genes and plant ESTs: Mendel-GFDb is a database of plant protein (gene) famili

35 e of this review is to examine evidence from Mendel's published and private writings on evolution and

36 rinsic correlations among genomic data (e.g. Mendel's law and linkage disequilibrium), we also augmen

37 Gregor Mendel is widely recognised as the founder of genetics.

38 Gregor Mendel was an Augustinian priest in the Monastery of St.

39 Gregor Mendel's discovery of the laws of segregation and indepe

40 Gregor Mendel's work on segregation of traits in plants establi

41 inally proposed by Charles Darwin and Gregor Mendel, respectively.

42 polymorphism (I/i) first reported by Gregor Mendel in 1866.

43 owing 1 (NYE1), originally studied by Gregor Mendel in pea (Pisum sativum) and involved in the degrad

44 h) anniversary of the presentation by Gregor Mendel of his studies of plant hybridization to the Brun

45 ht wonder whether in the 21st century Gregor Mendel would prefer to practice scientific approaches ot

46 icles celebrating the bicentennial of Gregor Mendel's birth discuss his life, work and legacy in mode

47 l see the bicentenary of the birth of Gregor Mendel, often hailed as the 'father of modern genetics'.

48 el reference genome assembly for pea, Gregor Mendel's original genetic model.

49 rspective, we review current ideas about how Mendel arrived at his discoveries and then discuss an al

50 We review existing ideas on how Mendel made his discoveries, before presenting more rece

51 beneath the impact basins Mare Humboltianum, Mendel-Ryberg, and Schiller-Zucchius, where the latter b

52 The software discussed is available in Mendel 9.0 at the UCLA Human Genetics web site.

53 e are cornerstones of genetics, described in Mendel's seminal publication from 1866.

54 xplanation of the bias toward expectation in Mendel's data, albeit without experimental support.

55 Much of this evidence lies in Mendel's handwritten annotations in his copies of Darwin

56 ein domains; the information being placed in Mendel-ESTS.

57 This information is placed in Mendel-GFDb.

58 Darwin's writings directly influenced Mendel's classic 1866 paper, and his letters to Nageli.

59 crops and domesticated animals that inspired Mendel and Darwin.

60 Regardless, it is Mendel's work that completed Darwin's theory.

61 historical records concerning Gregor Johann Mendel and his work, so theories abound concerning his m

62 In his final letter to Nageli, Mendel proposed a Darwinian scenario for natural selecti

63 Darwin, in short, desperately needed Mendel.

64 n to his teaching and religious obligations, Mendel carried out daily meteorological and astronomical

65 This year is the 200th anniversary of Mendel's birth, presenting a timely opportunity to revis

66 Application of Mendel to eight Centre d'Etude du Polymorphisme Humain p

67 Emphasizing the mathematical aspect of Mendel's laws through crossover and recombination will p

68 s perspective emphasizes the contribution of Mendel's preparations prior to his crossing experiments

69 The image that emerges of Mendel is of a meticulous scientist who accepted the ten

70 onsistent with the basic genetic findings of Mendel.

71 etics can be viewed as the spiritual heir of Mendel's research, one might wonder whether in the 21st

72 y--from the abstract elements of heredity of Mendel and Morgan to the present-day ORFs enumerated in

73 The interruption of Mendel's research activities in 1870 impeded the immedia

74 about Darwin, whereas Darwin knew nothing of Mendel.

75 : in a recent article by Feng et al., one of Mendel 'factors' is shown not to result in the expected

76 In addition, parts of Mendel can be downloaded from the CPGN Web site.

77 orward by several milestones: rediscovery of Mendel's laws, determination of DNA as the genetic mater

78 The rediscovery of Mendel's work showing that the heredity of phenotypes is

79 an genes(2-7), including a rare revertant of Mendel's white-flowered a allele.

80 l show that a simple and modern treatment of Mendel's laws using a Markov chain will make this step p

81 gation during female meiosis in violation of Mendel's first law.

82 This results from a programmed violation of Mendel's law of segregation, such that crossover product

83 kelihood estimation (MLE) framework based on Mendel's law of inheritance, to quantify DNA mixture bet

84 The principles of MR are based on Mendel's laws of inheritance and instrumental variable e

85 rio data and an orthogonal approach based on Mendel's rules of inheritance.

86 century, a research agenda that has built on Mendel's experiments and on Darwin's theory of natural s

87 educed intake of a high-fate diet in Osborne-Mendel (OM) and SD rats but not in S5B/Pl rats, whereas

88 he model implemented in the computer package Mendel estimates both recombination and linkage-disequil

89 gorithms implemented in the software package Mendel estimate recombination parameters and calculate t

90 implemented in the genetic software package Mendel.

91 h Johann Nave, whose untimely death preceded Mendel's first 1865 lecture by a few months.

92 his evidence, published inferences regarding Mendel's views on Darwinian evolution are contradictory

93 To mark the occasion, I retrace Mendel's origins, revisit his famous study 'Experiments

94 modern genomic tools, Feng et al. revisited Mendel's seven pea traits in a recent Nature study, unco

95 In this paper, we set Mendel's work in the context of experimental biology and

96 Since Mendel, maize has been a powerhouse of fundamental genet

97 Available evidence shows that Mendel knew much about Darwin, whereas Darwin knew nothi

98 cal sources that support the suggestion that Mendel's fundamental research on the inheritance of trai

99 us theory of inheritance to Olby's view that Mendel was not interested in inheritance at all, whereas

100 These theories range from Fisher's view that Mendel was testing a fully formed previous theory of inh

101 The Mendel database contains names for plant-wide families o

102 According to Mendel's second law, chromosomes segregate randomly in m

103 Our latest additions to Mendel anticipate and respond to the needs of the geneti

104 sequencing data to investigate adherence to Mendel's Law of Segregation, which states that the offsp

105 e of plant ESTs, which have been compared to Mendel-GFDb, completely sequenced genomes and domain dat

106 n of alleles from heterozygotes, contrary to Mendel's laws, and reflects intragenomic conflict rather

107 Scrutiny of additional exceptions to Mendel's law caused by selfish genes has the potential t

108 Exceptions to Mendel's law of segregation were important for demonstra

109 the stay-green gene, SGR1 that was mapped to Mendel's I locus responsible for cotyledon color (yellow

110 tions flower and seed colors, orthologous to Mendel's A gene of garden pea, whose loss of function is

111 matrix completion (LRMC) model is similar to Mendel-Impute, our matrix co-clustering factorization (M

112 ce components model for multivariate traits (Mendel: QTL Association).

113 evolution and genetics, showing how, unlike Mendel, Darwin's lack of a model of the mechanism of inh

114 Compared with earlier versions, Mendel is faster and easier to use and has a wider range

115 ed centromeric satellite repeats can violate Mendel's law of segregation by preferentially segregatin

116 nity for selfish genetic elements to violate Mendel's law of segregation by increasing the chance of

117 omenon of epigenetic switching that violates Mendel's Law of Segregation, was first discovered in mai

118 e their representation in gametes, violating Mendel's law of segregation.

119 that bias their own transmission, violating Mendel's Law of Equal Segregation.

120 sing scheme to normalize the data using Wang-Mendel (WM) de-noising and enhancing contrast globally,

121 When Mendel's work was rediscovered in 1900, and extended to

122 This is a clear case where Mendel's gene is composed of DNA plus the associated epi

123 identifies a single substrate through which Mendel's first and second laws might be violated.

124 vide a clearer and more complete view of who Mendel was and what he accomplished.

125 Compared with Mendel-Impute, our low-rank based method achieves simila

126 ption that, if a pedigree is consistent with Mendel's laws of inheritance, then there are no genotypi

127 Mendelian ratios, even though he shared with Mendel a more mathematical and probabilistic outlook tha

128 Starting with Mendel's remarkable discovery of "inheritance factors,"