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1 lar control of brain synchronization and are revolutionizing our understanding and treatment of the d

2 cribe the shape of chromosomes have begun to revolutionize our understanding of genome organization a

3 own effects of cognition on perception would revolutionize our understanding of how the mind is organ

4 tanding of this disease but may also help to revolutionize our understanding of human genetics.

5 avenues for extension and expansion that can revolutionize our understanding of infectious disease pr

6 al databases and creating the opportunity to revolutionize our understanding of life and disease.

7 induced pluripotent stem cells is likely to revolutionize our understanding of neuropsychiatric diso

8 ncestral lemur condition, an idea that could revolutionize our understanding of the ancient socioecol

9 oited the use of human and mouse genetics to revolutionize our understanding of the molecular and cel

10 approaches in nonhuman primates promises to revolutionize our understanding of the neural circuitry

11 oupled with high-throughput sequencing could revolutionize our understanding of the role of RNA struc

12 with ultra-deep coverage, thus promising to revolutionize our understanding of the underlying divers

13 elopments in proteomics tools now promise to revolutionize our understanding of this fundamental post

14 obal transcript levels, RNA-seq is poised to revolutionize our understanding of transcription and pos

15 lly manipulating influenza virus promises to revolutionize our understanding of viral replication and

16 Whereas the Th1-Th2 paradigm revolutionized our understanding of adaptive immunity by

17 f important palaeobotanical discoveries have revolutionized our understanding of angiosperm diversifi

18 tracking of fluorescent fusion proteins has revolutionized our understanding of basic concepts in ce

19 It has revolutionized our understanding of biological processes

20 n interactions through two-hybrid assays has revolutionized our understanding of biology.

21 Electronic tracking tags have revolutionized our understanding of broad-scale movement

22 Genomic technologies have revolutionized our understanding of complex Mendelian di

23 nantiornithines) during the past decade have revolutionized our understanding of early avian evolutio

24 discovery of topological photonic states has revolutionized our understanding of electromagnetic prop

25 of energy balance and insulin signaling have revolutionized our understanding of fat and sugar metabo

26 ence and related RNA silencing pathways have revolutionized our understanding of gene regulation.

27 Optical dating has revolutionized our understanding of Global climate chang

28 stem and activate innate immune pathways has revolutionized our understanding of how crystals cause i

29 vidual genes from a variety of organisms has revolutionized our understanding of how single genes evo

30 Discoveries during the past decade have revolutionized our understanding of idiopathic thromboti

31 16S rRNA-based genomic analyses have revolutionized our understanding of infectious diseases.

32 iron-regulatory hormone hepcidin in 2001 has revolutionized our understanding of iron disorders, and

33 ell receptor (TCR) transgenic (Tg) mice have revolutionized our understanding of many aspects of T-ce

34 Industrial ecology has revolutionized our understanding of material stocks and

35 Although this insight has revolutionized our understanding of microbial life, resu

36 eir recognition in the geological record has revolutionized our understanding of palaeoclimate dynami

37 drogen in the Antarctic ice core record have revolutionized our understanding of Pleistocene climate

38 ransplantation into immunodeficient mice has revolutionized our understanding of regeneration, stem c

39 The discovery of small non-coding RNAs has revolutionized our understanding of regulatory networks

40 uctures published in the past two years have revolutionized our understanding of ribonucleoprotein st

41 Genome sequencing has revolutionized our understanding of somatic mutation in

42 ies of the central nervous system (CNS) have revolutionized our understanding of the biology of these

43 sequencing analysis of large ALL cohorts has revolutionized our understanding of the genetic basis of

44 vailable for both rice and Arabidopsis, have revolutionized our understanding of the genetic make-up

45 Recent insights have revolutionized our understanding of the importance of ch

46 encing of bacterial and archaeal genomes has revolutionized our understanding of the many roles playe

47 ional science and genetic model systems have revolutionized our understanding of the mechanisms under

48 Optical tweezers have revolutionized our understanding of the microscopic worl

49 Mouse genetic engineering has revolutionized our understanding of the molecular and ge

50 ules exemplified by Src Homology domains has revolutionized our understanding of the molecular events

51 ew archaeological and genetic techniques has revolutionized our understanding of the pattern and proc

52 cal stimulation and recording, and they have revolutionized our understanding of the spatiotemporal d

53 The human genome project has revolutionized our understanding of the underlying mecha

54 nnels and secondary active transporters, has revolutionized our understanding of their function.

55 High-resolution genetic markers have revolutionized our understanding of vertebrate mating sy

56 These insights are revolutionizing our understanding of endocytosis and the

57 uch as the 1000 Genomes Project, are already revolutionizing our understanding of genetic variation a

58 omal subunits and the intact 70S ribosome is revolutionizing our understanding of protein synthesis.

59 specific signaling proteins and their use is revolutionizing our understanding of signal transduction

60 lysis after the host-pathogen interaction is revolutionizing our understanding of the host response t

61 creases, promising to lay the groundwork for revolutionizing our understanding of the relationship be

62 or living organisms and cell lines have been revolutionizing our understanding of the spatial and tem

63 the molecular genetics of uveal melanoma are revolutionizing our understanding of this cancer and the

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