ライフサイエンスコーパス: suspension cell

1 sion level and kinetics in both adherent and suspension cells.

2 l infectivity through improved attachment to suspension cells.

3 lecules into different types of adherent and suspension cells.

4 ll as GPCR drug responses in LCLs, which are suspension cells.

5 NA library derived from sucrose-starved rice suspension cells.

6 present at a 1:3 M ratio with total actin in suspension cells.

7 starch purified from Arabidopsis plants and suspension cells.

8 bidopsis and stably transformed tobacco BY-2 suspension cells.

9 llets derived from roots, inflorescence, and suspension cells.

10 clin D1 cooperate to rescue proliferation in suspension cells.

11 e stably expressed NtPDR1 in N. tabacum BY-2 suspension cells.

12 into the cytoplasm of numerous adherent and suspension cells.

13 an Rb cDNA can induce pigmentation in maize suspension cells.

14 ame mechanism is used by Tax in adherent and suspension cells.

15 rapidly activated a 48-kD kinase in tobacco suspension cells.

16 cid-induced protein kinase (SIPK) in tobacco suspension cells.

17 nt phosphorylation of both cPLA2 and ERK2 in suspension cells.

18 to produce monoclonal antibodies in HEK293E suspension cells.

19 aigremontiana and unable to attach to carrot suspension cells.

20 capable of alkalinizing the media of soybean suspension cells, a response that is generally associate

21 Within 2 days after injection of single-cell suspensions, cells aggregated to form cysts lined with a

22 terventions on 3D cell clusters against both suspension cells and adherent cells grown in monolayer,

23 e generated tobacco (Nicotiana tabacum; NT1) suspension cells and Arabidopsis plants with altered lev

24 eptidase Y and other proteins in Arabidopsis suspension cells and cause these proteins to be secreted

25 l production of recombinant proteins in rice suspension cells and germinated seeds.

26 t and was observed in both nonphotosynthetic suspension cells and green leaves.

27 promoters in both maize Black Mexican Sweet suspension cells and in stably transformed maize plants.

28 genase (MTD) in celery (Apium graveolens L.) suspension cells and plants showed that MTD is a cytopla

29 s in filamentous actin levels in Arabidopsis suspension cells and poppy pollen grains.

30 l for plant mitochondria in vivo, transgenic suspension cells and tobacco plants expressing GFP with

31 ze 16 cell types, from primary epithelial to suspension cells, and quantify heterogeneity in mixed co

32 T-87 suspension cells are increasingly used in Arabidopsis (A

33 In suspension cells, Arp2/3 complex is required for filopod

34 nhance the introduction of plasmids into the suspension cells because of the dielectrophoretic accumu

35 oplasm and nucleus of interphase Arabidopsis suspension cells but much stronger staining of the mitot

36 the transformation efficiency of Arabidopsis suspension cells by Agrobacterium.

37 after it was introduced into maize endosperm suspension cells by particle bombardment.

38 s originally identified in Nicotiana tabacum suspension cells (BY2), in which its expression was indu

39 We demonstrate that suspension cells can directly arise from adherent cells

40 ctron microscope analysis confirmed that the suspension cells carry plastids that are significantly s

41 ects in a new model system consisting of CHO suspension cell columns.

42 lexes using lentiviral transduction of human suspension cells, combined with highly specific nanobody

43 e and increase in DNA content in hematologic suspension cells, correlates with the capability of thes

44 fy highly active L1 RNP complexes from human suspension cell culture and characterize the copurified

45 ptides that rapidly increase the pH of plant suspension cell culture medium and inhibit root growth.

46 A xylogenic suspension cell culture of tobacco has been used as a so

47 The use of suspension cell culture provides an intrinsically more s

48 ere we use a newly characterized Arabidopsis suspension cell culture to establish that the rhythmic c

49 to be universally applicable to adherent and suspension cell cultures and fit-for-purpose for the qua

50 ntification of highly expressing cell lines, suspension cell cultures are scaled up in a facile manne

51 acts from Arabidopsis (Arabidopsis thaliana) suspension cell cultures can accurately cleave different

52 Here suspension cell cultures of T. wilfordii were found to p

53 eferential expression in BMS and embryogenic suspension cell cultures vs. endosperm-derived suspensio

54 We treated Arabidopsis suspension cell cultures with Yariv phenylglycoside and

55 of high-value iridoids and MIAs in C. roseus suspension cell cultures.

56 spension cell cultures vs. endosperm-derived suspension cell cultures.

57 ynamics simulation and complete retention of suspension cells experimentally demonstrated within the

58 probe/bleach/probe geometry, employing HeLa suspension cells expressing fluorescent proteins.

59 ivision in time-lapse studies of Arabidopsis suspension cells expressing GFP-AtMAP65-1.

60 In Arabidopsis suspension cells, fru-2,6-P2 content increased in respon

61 detergent-extracted cytoskeletons of carrot suspension cells has been devised.

62 anchorage dependency of adherent cells into suspension cells in an inducible and reversible manner.

63 ranscript and protein changes in Arabidopsis suspension cells in response to ABA using microarrays an

64 on constructs in tobacco (Nicotiana tabacum) suspension cells, indicated mitochondrial, plastidial, a

65 Tissue was digested into single-cell suspensions, cells isolated, mRNA reverse transcribed, a

66 Bright Yellow 2 tobacco (Nicotiana tabacum) suspension cells labeled with an environment sensitive f

67 Analysis of one hybrid suspension cell line revealed the presence of markers co

68 T. caerulescens suspension cell lines exhibited: (1) higher growth requi

69 a pattern validated in 63 human adherent or suspension cell lines of other origin.

70 The plasmid is then used to generate human suspension cell lines stably expressing the tagged fusio

71 copy expression levels by 24-fold in tobacco suspension cell lines stably transformed by microproject

72 ulation in the intact plant, T. caerulescens suspension cell lines were developed.

73 ecretion pathway of serum-free adapted human suspension cell lines, such as 293 Freestyle.

74 In seven suspension cell lines, the cytotoxicity of tasidotin cor

75 efficient PNP formulations for adherent and suspension cell lines.

76 Removal of Ca(2+) from tobacco suspension cell medium has two immediate effects on cyto

77 e report development of a dark-grown tobacco suspension cell model system to investigate the transfor

78 nology can be applied to LCLs, despite their suspension cell nature, in order to serve as an in vitro

79 in cells with low autofluorescence, such as suspension cells or trichomes, but masked in green tissu

80 moval and regeneration of rice cell walls in suspension cells over time.

81 In addition, transgenic Arabidopsis suspension cells overexpressing AtKUP1 showed increased

82 tegration and analysis, we extend beyond the suspension cell paradigm and discover macro and micro-an

83 ous, steady-state coexistence of AtPex16p in suspension cell peroxisomes and ER.

84 haride preparation from strain C58 to carrot suspension cells prior to inoculation with the bacteria

85 optimized lysis conditions for adherent and suspension cells, producing high-quality lysates from HE

86 even different cell types, including primary suspension cells (red blood cells, platelets), cultured

87 ctive three-dimensional (3D) imaging of live suspension cells remains challenging without substrate t

88 is finding suggests that the T. caerulescens suspension cells represent cells of the Zn/Cd transport

89 tation experiments with Arabidopsis thaliana suspension cells revealed homooligomerization of all fiv

90 Here, we show that in tobacco suspension cells, SA induced a rapid and transient activ

91 escence microscopic analyses of tobacco BY-2 suspension cells serving as an in vivo import system.

92 3D aggregates of adherent cells, compared to suspension cells, show a substantially different drug re

93 ine-phalloidin in permeabilized tobacco BY-2 suspension cells, showing that the fusion protein can sp

94 bles studies of a wide range of adherent and suspension cell subpopulations, which we anticipate will

95 2-yl)carbamoyl]acet ate (YH439)]-treated and suspension cells, suggesting a common mechanism of targe

96 The suspension cell system will be useful as a model for und

97 The locally electroporated suspension cells that are considered to be very difficul

98 can efficiently deliver oligonucleotides to suspension cells that are known to be very difficult to

99 Suspension cells that were grown in medium with mannitol

100 RKII W109L, and PTP1B C215S activated ERK in suspension cells, the latter two constructs also disrupt

101 cells (red blood cells, platelets), cultured suspension cells (THP-1), primary adherent cells (chondr

102 mobilization in the response of Arabidopsis suspension cells to Suc starvation was examined.

103 us, AOX functions in leaves and roots, as in suspension cells, to ameliorate ROS production when the

104 Analysis of tobacco suspension cells transformed with truncated BC promoter/

105 In a previous study on Arabidopsis thaliana suspension cells transiently infected with the microtubu

106 lear extracts isolated from embryogenic rice suspension cells treated with the phytohormone abscisic

107 t mammalian NOS to tobacco plants or tobacco suspension cells triggered expression of the defense-rel

108 ing of fluorescently labeled SNV to Tanoue B suspension cells using a high-throughput flow cytometer.

109 ure substrate oxidation of both adherent and suspension cells using multiwell plates rather than flas

110 o as AST that reprograms adherent cells into suspension cells via defined hematopoietic transcription

111 cy of removing unbound (89)Zr-oxine from the suspension, cell viability measured using annexin V/prop

112 sue of wheat embryos but their expression in suspension cells was compromised, compared with transien

113 In addition, suspension cells were followed by imaging flow cytometry

114 gy was absolutely clear when semiadherent or suspension cells were used in this multistep experimenta

115 ed full-length cDNA was conducted in tobacco suspension cells where its expression resulted in the ac

116 tosol to peroxisomes in Arabidopsis and BY-2 suspension cells, whereas AtMDAR2 and AtMDAR3 accumulate

117 possible to stably transform T. caerulescens suspension cells, which will allow us to alter the expre

118 NA ribonucleoproteins into both adherent and suspension cells with up to 80% delivery efficiency and

119 ma09g36370 (GmPROPEP890) in cultured soybean suspension cells within 1 h.

120 s this trade-off by temporarily immobilizing suspension cells within a microfluidics chip.

121 A similar fraction from carrot suspension cells yielded a cross-reacting polypeptide of