1 helping to shape and expand the concepts of
genetic epistasis.
2 Genetic epistasis analyses demonstrate that fragmentatio
3 Genetic epistasis analyses demonstrate that SHREC subuni
4 Results from
genetic epistasis analyses involving spo13Delta, rad54De
5 Genetic epistasis analyses reveal that egl-43 acts downs
6 Genetic epistasis analyses reveal that Hrq1 acts paralle
7 Biochemical evidence and
genetic epistasis analyses reveal that Smad2 acts upstre
8 Genetic epistasis analyses suggest that dietary restrict
9 Genetic epistasis analyses suggest that Wise requires Lr
10 Genetic epistasis analysis in Hfx. volcanii suggests tha
11 livery pathway, we performed a comprehensive
genetic epistasis analysis in the yeast Saccharomyces ce
12 Genetic epistasis analysis indicated that c-Myc and Ras
13 Genetic epistasis analysis indicated that RAN1 acts upst
14 Genetic epistasis analysis indicates that OSR-1 regulate
15 Genetic epistasis analysis involving the ectopic express
16 Through
genetic epistasis analysis of the yeast Saccharomyces ce
17 Our
genetic epistasis analysis places diap2 downstream of or
18 Genetic epistasis analysis places the defect upstream of
19 Surprisingly,
genetic epistasis analysis revealed that DTKR function w
20 Genetic epistasis analysis showed that Reln(CTRdel)/Apoe
21 Our
genetic epistasis analysis supports a conclusion that ue
22 Further, we show by
genetic epistasis analysis that Pik1 likely regulates St
23 Here, we use
genetic epistasis analysis to identify proteinase-activa
24 Based on
genetic epistasis analysis, nsy-1 appears to act downstr
25 Genetic-epistasis analysis revealed that mutations in ph
26 Chemical-
genetic epistasis and expression profiles revealed that
27 vo coimmunoprecipitation, FRET analysis, and
genetic epistasis and provides evidence of a sugar-signa
28 Observations from
genetic epistasis and RNA quantification experiments ind
29 population-specific effects, suggesting that
genetic epistasis and/or genotype x environment interact
30 the context of Wright's adaptive landscape,
genetic epistasis can yield a multipeaked or "rugged" to
31 Genetic epistasis data are consistent with a model that
32 n increased with cell-cycle progression, and
genetic epistasis demonstrated that Ssp1 promotes mitoti
33 Genetic epistasis experiments and analysis of tumor-deri
34 Genetic epistasis experiments demonstrate that lsy-2 exe
35 Genetic epistasis experiments demonstrate that the mutan
36 Results of
genetic epistasis experiments further reveal that bam's
37 Although
genetic epistasis experiments place IFT proteins downstr
38 Genetic epistasis experiments provided evidence that NHX
39 Genetic epistasis experiments reinforce the conclusion t
40 Here,
genetic epistasis experiments show that MECP2 transcript
41 Genetic epistasis experiments show that this ventralized
42 Genetic epistasis experiments show the following: (1) AG
43 Moreover,
genetic epistasis experiments showed that miR-92-mediate
44 Genetic epistasis experiments showed that regulation by
45 Genetic epistasis experiments suggest that All2874 acts
46 Genetic epistasis experiments suggest that Hth and Tsh e
47 Genetic epistasis experiments suggest that overexpressio
48 Genetic epistasis experiments suggest that zen is not th
49 Genetic epistasis experiments suggested that HDA-3 and C
50 Genetic epistasis experiments support this transcription
51 Genetic epistasis experiments with sensory signaling, ex
52 In
genetic epistasis experiments, STE12 functions in a MAP
53 Based on predicted functions and
genetic epistasis experiments, we propose that at least
54 Based on misexpression and
genetic epistasis experiments, we propose that Six3 acts
55 Quantitative
genetic epistasis has been hypothesized to be an importa
56 tion levels illustrates the need to consider
genetic epistasis in assessing gene-environment interact
57 To date, no clear evidence for
genetic epistasis in lupus has been established.
58 cle, we introduce a new approach for testing
genetic epistasis in multiple loci using an entropy-base
59 Genetic epistasis is important in regulating biological
60 nt (phenotypic plasticity), other mutations (
genetic epistasis)
or both.
61 (QTL x environment interaction), other QTL (
genetic epistasis),
or both.
62 Genetic epistasis over mutations that eliminate detectab
63 af-2 and age-1 act at a similar point in the
genetic epistasis pathway for dauer arrest and longevity
64 dCsk caused increased Yki activity, and our
genetic epistasis places dCsk downstream of Dachs.
65 struct genetic networks, the extent to which
genetic epistasis reflects biologically meaningful inter
66 f a wnt reporter zebrafish line and chemical
genetic epistasis showed that the effects of PGE2 are me
67 ed substrate degradation, the results of new
genetic epistasis studies agree with previous genetic da
68 Genetic epistasis studies and whole genome expression pr
69 Genetic epistasis studies between the strongest inducer,
70 Genetic epistasis studies reveal that Notch signaling re
71 Genetic epistasis studies revealed an early requirement
72 Genetic epistasis studies suggest that Mus81 works with
73 Genetic epistasis studies using G alpha(q) gain-of-funct
74 at lack their resident terminal selector and
genetic epistasis studies with H3K9 methyltransferases s
75 These results, together with
genetic epistasis studies, suggest that postsynaptic Pum
76 h provides a fast and testable framework for
genetic epistasis study in a case-only design.
77 ncluding tubulin acetyltransferases; and (3)
genetic epistasis suggests the microtubule-stabilizing p
78 Genetic epistasis tests are consistent with models in wh
79 With
genetic epistasis tests between these sigma(70) R4 mutan
80 activity when they should be quiescent, and
genetic epistasis tests demonstrate that ectopic Cyclin
81 Genetic epistasis tests show that Dab functions upstream
82 enhances loss of dpp function phenotypes in
genetic epistasis tests.
83 tivity, analysis of protein localization and
genetic epistasis to dissect the structure of this netwo
84 In this study we use
genetic epistasis to investigate the interdependence of
85 Our study highlights the utility of
genetic epistasis to unravel the complexities of JAZ-TF
86 Genetic epistasis using various activated LIN-45 Raf tra
87 Local
genetic epistasis was detectable for a small proportion
88 Using
genetic epistasis we established here that Ihog and Boi,
89 affinity for the four targets, and chemical
genetic epistasis,
which is the effect of combined chemi
90 This type of effect, which is an example of
genetic epistasis,
will make the molecular characterizat