ライフサイエンスコーパス: nuclear fusion

1 develop a power source based on laser-driven nuclear fusion.

2 Use1p, and Bos1p are required for efficient nuclear fusion.

3 (ER) fusion (Sey1p) for additional roles in nuclear fusion.

4 ith host cardiomyocytes, and, in some cases, nuclear fusion.

5 ria, suggesting a role for this organelle in nuclear fusion.

6 Some of the fused cells also underwent nuclear fusion.

7 A few also underwent nuclear fusion.

8 reticulum resident DnaJ protein required for nuclear fusion.

9 ing that Kar2p interacts with Kar8/Jem1p for nuclear fusion.

10 ating projection formation, cell fusion, and nuclear fusion.

11 fourth protein, Kar5p/Fig3p, is required for nuclear fusion.

12 ressed the kar4 defect in KAR3 induction and nuclear fusion.

13 rged particles for long time scales, such as nuclear fusion.

14 ally sized daughter nuclei, and sometimes in nuclear fusions.

15 rtant for our understanding of astrophysics, nuclear fusion and fundamental physics-however, the nonl

16 Death of syncytia is associated with nuclear fusion and premature chromosome condensation as

17 ild can mate, cell fusion is not followed by nuclear fusion and true diploidy.

18 emperatures, as in astrophysical objects and nuclear fusion applications, constitutes one of the most

19 Proteins required for nuclear fusion are found at the surface (Prm3p) and with

20 However, the known proteins required for nuclear fusion are unlikely to function as direct fusoge

21 y measurements in ion-implanted tungsten for nuclear fusion armour.

22 The development of nuclear fusion as a safe and virtually limitless power s

23 scale, niche applications such as commercial nuclear fusion as well as numerous other large-scale app

24 Health risks are smaller for nuclear fusion, but commercial exploitation will not be

25 sequestration of cell nuclei and subsequent nuclear fusion by a mechanism that is nonapoptotic, as a

26 y analysis of kar8 mutant zygotes revealed a nuclear fusion defect different from kar2, kar5, and kar

27 e, previously identified in a screen for new nuclear fusion-defective mutants.

28 tants in Arabidopsis (Arabidopsis thaliana), nuclear fusion defective1 (nfd1) to nfd9, that are defec

29 A tokamak, a torus-shaped nuclear fusion device, needs an electric current in the

30 ys were done in mutant kar1-1 strains, where nuclear fusion does not occur, GFP-Nup49p appearance in

31 pole body component Kar1p has a function in nuclear fusion during conjugation, a process known as ka

32 The Kar9 pathway promotes nuclear fusion during mating and spindle alignment durin

33 ent, and nuclear migration during karyogamy (nuclear fusion during mating).

34 Kar3, controls both the mitotic spindle and nuclear fusion during mating.

35 KAR3 and PRM2, genes required for efficient nuclear fusion during mating.

36 rane fusion during karyogamy, the process of nuclear fusion during yeast mating.

37 characterized member, KAR5, is essential for nuclear fusion during yeast sexual reproduction.

38 r these data demonstrate that SNAREs mediate nuclear fusion, ER fusion after cell fusion is necessary

39 ty at the MAT locus, but rather requires the nuclear fusion events which occur during mating.

40 erium fuel could increase the probability of nuclear fusion events.

41 power satellites, biomass, nuclear fission, nuclear fusion, fission-fusion hybrids, and fossil fuels

42 roversy over when, and with what efficiency, nuclear fusion follows cell fusion to create stable tetr

43 plasmas has the ultimate goal of harnessing nuclear fusion for the production of electricity.

44 Two models for nuclear fusion have been proposed: a one-step model in w

45 Harnessing energy from nuclear fusion in a large reactor scale, however, still

46 We also show that nuclear fusion in C. albicans requires the Kar3 microtub

47 zation studies show that CrGEX1 functions in nuclear fusion in Chlamydomonas.

48 Remarkably, despite the absence of nuclear fusion in the slp1 null mutant, meiosis proceeds

49 ity to Kar5p, a protein that participates in nuclear fusion in yeast.

50 rTNFalpha, limited the reduction in MTT and nuclear fusion index (NFI) associated with rTNFalpha sti

51 f hydrogen isotopes for applications such as nuclear fusion is a major challenge.

52 These findings demonstrate that nuclear fusion is an active process that can occur in C.

53 Nuclear fusion is entering the era of power plant-scale

54 Nuclear fusion is one of the most attractive alternative

55 Karyogamy, the process of nuclear fusion is required for two haploid gamete nuclei

56 The essence of nuclear fusion is that energy can be released by the rea

57 Karyogamy, or nuclear fusion, is essential for sexual reproduction.

58 oeba characterized by extensive cellular and nuclear fusions, is presented.

59 noncytoplasmic) face of the ER membrane, yet nuclear fusion must initiate from the cytosolic side of

60 Slp1 is required at the last step, nuclear fusion, not for earlier events including nuclear

61 Aberrant divisions and nuclear fusions occur in the early cycles of the nuclear

62 We conclude that nuclear fusion occurs by a three-step pathway.

63 se microscopy, to demonstrate that efficient nuclear fusion occurs in the zygote before formation of

64 ze that the observed neutrons originate from nuclear fusion of deuterium ions dissolved in titanium l

65 We do not find evidence of nuclear fusion of donor and host cells.

66 produce the conditions for laboratory-scale nuclear fusion of hydrogen isotopes.

67 nesin family member that is involved in both nuclear fusion, or karyogamy, and mitosis.

68 Nuclear fusion power delivered by magnetic-confinement t

69 ll also meet the anticipated needs of future nuclear fusion power plants, as well as other important

70 shockwaves, which have found applications in nuclear fusion, proton imaging, cancer therapies and mat

71 uark-level analogue of the deuterium-tritium nuclear fusion reaction (DT --> (4)He n).

72 ical and concentric target shells, causing a nuclear fusion reaction at 150 M degrees C.

73 These radioactive elements are produced in nuclear fusion reactions at rates of only a few atoms pe

74 imeter-sized capsule is imploded to initiate nuclear fusion reactions between deuterium and tritium.

75 a facing materials in future high-duty cycle nuclear fusion reactions due to the coupled extreme envi

76 bubble implosion conditions, as required for nuclear fusion reactions.

77 osed as plasma facing material components in nuclear fusion reactors and require experimental investi

78 The plasma-facing components of nuclear fusion reactors are continuously subjected to hi

79 under extreme operating conditions in future nuclear fusion reactors such as ITER.

80 ycrystalline W under irradiation in advanced nuclear fusion reactors.

81 ma-facing materials, tungsten (W), in future nuclear fusion reactors.

82 xposed to the plasma in magnetic-confinement nuclear fusion reactors.

83 Nuclear fusion research for energy applications aims to

84 logs of two proteins functioning in cell and nuclear fusion, respectively (HAP2 and GEX1), providing

85 a and alpha cells undergo efficient cell and nuclear fusion, resulting in tetraploid a/alpha mating p

86 n contrast, Sey1p is required indirectly for nuclear fusion; sey1Delta zygotes accumulate ER at the z

87 ar but not cytoplasmic MT length and display nuclear fusion, spindle positioning, and elongation kine

88 vealed that while all isolates could undergo nuclear fusion, the efficiency of nuclear fusion varied

89 gns for developing reactors that can exploit nuclear fusion to generate electrical energy(1,2).

90 ccharomyces cerevisiae, mating culminates in nuclear fusion to produce a diploid zygote.

91 Nuclear fusion using magnetic confinement, in particular

92 d new possibilities for ion acceleration and nuclear fusion using solid targets.

93 ld undergo nuclear fusion, the efficiency of nuclear fusion varied in different crosses.

94 To investigate the molecular mechanism of nuclear fusion, we cloned and characterized the KAR5 gen

95 ynthesised at accelerator laboratories using nuclear fusion, where two atomic nuclei collide, stick t

96 xpress only the long isoform have defects in nuclear fusion, whereas cells expressing only the short

97 Mastering nuclear fusion, which is an abundant, safe, and environm

98 ealed that mutations in these proteins block nuclear fusion with different morphologies, suggesting t