ライフサイエンスコーパス: carpet

1 We call these flat constructs "bacterial carpets".

2 y while describing the scene (eg, indoor and carpet).

3 variant subtype of SNIFR that we refer to as CARPET.

4 les as a function of distance from an active carpet.

5 s were assessed through a pressure-sensitive carpet.

6 half of which had "healthier" furniture and carpet.

7 ParB transiently bridged plasmid to the DNA carpet.

8 mattress covers and bedroom and living-room carpets.

9 posited dose rates of resuspended bioPM from carpets.

10 old dust (2780 ng/g dust) and in family room carpet (2880 ng/g carpet), and the primary mode of excre

11 ingly disparate models of toroidal pores and carpet activity are actually related.

12 itioning, use of a dehumidifier, presence of carpeting, age of home, and visible mold at age 1 year a

13 Results demonstrate that carpet and clothing are likely sources of PFASs in landf

14 Discarded carpet and clothing are potential sources of per- and po

15 For carpet and clothing reactors, the majority of PFAS relea

16 re conducted on two different surface types (carpet and laminate) with 10(6) colony forming units of

17 ed surface sampling methods (vacuum sock for carpet and sponge wipe for laminate).

18 effects of different floor surfaces such as carpet and tile on walking performance, and performance

19 ions to room air and surface applications to carpet and vinyl.

20 es chemical vapor deposition growth of MXene carpets and complex spherulite-like morphologies that fo

21 ng China, as a stain repellent for clothing, carpets and draperies, but it has been banned in the U.S

22 p1 concentrations in bedroom and living-room carpets and the differences between the treatments were

23 hase" (air and dust particles settled on the carpet) and the "non-mobile phase" (carpet fibers and pa

24 g dust) and in family room carpet (2880 ng/g carpet), and the primary mode of excretion for the major

25 onds can bridge a parS-coated cargo to a DNA carpet, and they can work collectively as a Brownian rat

26 andings on a FIG-certified mat, a gymnastics carpet, and three custom-designed mats (TYPE 1-3) varyin

27 air release (3.1 x 10(-3) to 6.3 x 10(-3)), carpet application (3.8 x 10(-5) to 6.2 x 10(-3)), and v

28 intelligent shoe and an identity recognition carpet are demonstrated to verify its performance.

29 are present, beds are encased in plastic, no carpets are present, and no signs of cockroaches have be

30 o the computer room, suggesting furniture or carpet as a source.

31 The resulting 3D F-TENG can be used in smart carpets as a self-powered escape and rescue system that

32 interval (CI): 1.03, 5.75) and wall-to-wall carpet at work (adjusted OR = 1.73, 95% CI: 0.74, 4.09),

33 Information on house size, curtains and carpets at home, mattress type, housekeeping frequency,

34 Footwear, carpet, automotive interiors, and multilayer packaging a

35 ared with that from smooth floors, dust from carpeted bedroom floors had 2.1 times the risk of dust m

36 r, and improves fluid pumping in dense cilia carpets, but hardly affects the direction of fluid flow.

37 magnetic fields into large-scale propelling carpets can form perfect crystalline materials upon suit

38 In dense multiciliated carpets, cilia were shown to exhibit a remarkable coordi

39 The use of carpet cleaner was associated with direct emission of 2-

40 Firstly, we propose to design a non-closed carpet cloak to conceal objects on a reflecting plane.

41 ation of spherical aberration, and the other carpet cloak, both at 532 nm visible spectrum.

42 The optical 'carpet' cloak is designed using quasi-conformal mapping

43 rd to scale up and, more critically, typical carpet cloaks introduce unnecessary phase shifts in the

44 these devices confirm our ability to deform carpet cloaks, bent waveguides, and potentially other qu

45 th initial mattress dust weights and bedroom carpet Der p1 load as covariates.

46 as due to the reduction in mattress dust and carpet Der p1.

47 pepD2M disrupts the E. coli membrane using a carpet/detergent-like mechanism.

48 B congeners (105, 138, 153, 170, and 180) in carpet dust collected between 1998 and 2000 from 1187 ho

49 ed models, concentrations of insecticides in carpet dust decreased for three of four insecticides no

50 We collected repeated carpet dust samples (median = 3; range, 1-7) from 21 hom

51 repeatability of pesticide concentrations in carpet dust samples and the potential attenuation bias i

52 e measurement of pesticide concentrations in carpet dust to characterize an individual's average long

53 itional indoor sources were identified i.e., carpet dust, copper-rich, and silver-rich.

54 minants of concentrations of insecticides in carpet dust, such as home and garden use, occupational e

55 and stool were sampled from family members, carpet, dust, and air were sampled in the home, and a qu

56 asured concentrations of insecticides in one carpet-dust sample from each of 434 homes in California

57 on lipid membranes, reports have included: a carpeting effect; a detergent effect; and Abeta ion-chan

58 s a stable global attractor in large ciliary carpets, even under finite perturbations to cilia and ti

59 styrene (ST) performed among workers in the carpet factories in Kashan city, Iran.

60 n components of the carpenter's glue used in carpet factories.

61 effective in removing Co from solution with carpet fibers and Co and Cu without fibers.

62 d on the carpet) and the "non-mobile phase" (carpet fibers and pad) and the removal rates resulting f

63 Recycled carpet fibers enhance the effectiveness of this bioremed

64 ion strategy while providing a use for spent carpet fibers or similar waste manufactured fiber materi

65 tionally, we demonstrate the use of recycled carpet fibers to support dense biomass growth and promot

66 Ozone reacted primarily with carpet fibers, rather than with THS, leading to short-te

67 Hence, by being absorbed deeply into carpet fibers, THS constituents can be partially shielde

68 ckroaches, and/or smoker(s) in the home; and carpeted floors.

69 d the F-plasmid partition system using a DNA-carpeted flow cell as an artificial nucleoid surface and

70 ParA-mediated plasmid partition inside a DNA-carpeted flowcell, which acts as an artificial nucleoid.

71 o study plasmid partition reactions in a DNA-carpeted flowcell.

72 by sequential growth of zinc oxide nanowire carpets followed by layer-by-layer deposition of a polym

73 cs of N(2) fixation by cyanobacteria on moss carpets from warm and cold temperate forests.

74 , type, and age of potential sources such as carpeting, furniture, and/or paint.

75 s: surface glia (SG), wrapping glia (WG) and carpet glia (CG).

76 y the strain on the nanoparticle, induced by carpet growth across the substrate step edges.

77 substances (PFASs) from stain-guard treated carpets in landfills continue to be released into the en

78 tion for management of discarded stain-guard carpets in landfills.

79 In 2001-2007, we sampled carpets in the room where the child spent the most time

80 sure to BD and ST for workers in the machine carpet industry are very likely.

81 We show that a ciliary carpet is characterized by three different velocities: t

82 etrospective study to identify all potential carpet lesions detected at CT colonography.

83 Eighteen carpet lesions in 18 patients (0.2%; mean age, 67.1 year

84 Carpet lesions were defined as morphologically flat, lat

85 No additional neoplastic carpet lesions were found in the cohort undergoing colon

86 For those patients with neoplastic carpet lesions, CT colonography studies were analyzed to

87 CT colonography can effectively depict carpet lesions.

88 y be flat, lobulated lesions, also known as "carpet" lesions, that are characterized by a finely nodu

89 These results support the proposed nonpore carpet-like mechanism of action, in agreement with the s

90 brane permeabilization by LL-37 is a nonpore carpet-like mechanism of action.

91 s and disrupts bacterial membranes through a carpet-like mechanism.

92 rovide evidence for the structures to form a carpet-like three-dimensional scaffold promoting and inh

93 These 'active carpets' locally inject energy into their surrounding fl

94 Finally, CARPET may represent a unique and severe variant form of

95 The former suggests a carpet mechanism for bilayer disruption whereas the latt

96 e of the antimicrobial peptide and support a carpet mechanism for the disruption of the membranes by

97 layers composed of POPC, in agreement with a carpet mechanism.

98 normal, which could be consistent with the "carpet" mechanism for lytic activity.

99 function via the early and late stage of the carpet model at low and high concentrations, respectivel

100 eneous cell membrane, lending support to the carpet model for the association mode of hIAPP aggregate

101 10,000 ppb, did not significantly reduce the carpet nicotine loading (26-122 mg m(-2)).

102 jured commissural axons were provided with a carpet of C6-R cells (a radial glia-like cell line), sig

103 Subduction of Tethyan oceanic crust with a carpet of carbonate-rich pelagic sediments deposited dur

104 rites from embryonic spinal cord explants on carpets of membranes isolated from perinatal rat muscles

105 Scanning FCS outputs a "carpet" of timed fluorescence intensity fluctuations at

106 uenced by the season and room type; however, carpets on floors had no influence.

107 g to the disruption of membrane via either a carpet or a toroidal-type mechanism.

108 naerobic model landfill reactors filled with carpet or clothing were monitored under biologically act

109 tion of anionic membranes proceeds through a carpet or detergent model as proposed for other antimicr

110 s included older child age, lower adiposity, carpeting or a rug in the child's bedroom, higher matern

111 These results support carpeting or toroidal pore mechanisms of membrane disrup

112 The "carpet" or "sinking raft" model of peptide pore formatio

113 idely used as flame retardants in furniture, carpet padding, car seats, and other consumer products d

114 n school rooms, including vinyl tile floors, carpets, painted bricks, painted drywall, and glass-bloc

115 ransition from a disordered to a crystalline carpet phase is captured via spatial and temporal correl

116 visualized and automatically identified in a carpet plot as tilted lines of sudden intensity change.

117 A "carpet plot" is a 2-dimensional plot (time vs. voxel) of

118 Additionally, resting state carpet plots indicate that edge transit times vary at di

119 Here, we evaluate the use of carpet plots paired with a developed slope-detection alg

120 Resting state carpet plots produce edges with transit times similar to

121 Carpet plots were constructed by ordering voxels accordi

122 s with transit times similar to those of DSC carpet plots.

123 related with the fact of high popularity of carpet production in the South Asia countries.

124 unds (VOCs) are commonly used in the machine carpet production.

125 Release in live carpet reactors was primarily due to 5:3 fluorotelomer c

126 Carpet recycling network designs based on traditional co

127 using an optimization model developed for a carpet recycling network.

128 ke in the lab ("fresh THS") and contaminated carpets retrieved from smokers' homes ("aged THS") were

129 esenting lumber, processed wood, insulation, carpet, roofing, electrical sheathing, and flooring.

130 gly influenced by access to the outdoors and carpeted rooms hosted more types of arthropods than non-

131 oms hosted more types of arthropods than non-carpeted rooms.

132 oor remediation strategy by evaluating how a carpet serves as a sink and long-term source of thirdhan

133 hieve this with liquid-infused soft magnetic carpets (SMCs) that consist of pillars that are responsi

134 formance infill materials, infill depths and carpet specifications.

135 ynamic properties of the Sop system on a DNA-carpet substrate, which further support the proposed dif

136 The carpet surface generated the highest peaks and shortest

137 ion zones of the partition ATPase on the DNA carpet surrounding partition complexes.

138 for millennia as red colorants in textiles, carpets, tapestries, and other objects.

139 ions, and shapes that mesh into a continuous carpet that bridges from segment to segment, hugging the

140 sed on a controlled colloidal flow above the carpet that enables complete crystallization after a few

141 Specimens from unused carpet that was exposed to smoke in the lab ("fresh THS"

142 by cyanobacterial associates in feather moss carpets that reside on the forest floor.

143 e and strength of the flow patterns near the carpets, the motion must be generated by small numbers o

144 we propose an analytically tractable active carpet theory.

145 t form through buckling and release of MXene carpet to expose fresh surface for further reaction.

146 Partitioning from carpet to leachate and distilled water at different pHs

147 To understand the leaching of PFASs from carpets to landfill leachate as a function of environmen

148 us in nature, from chromosomal DNA and cilia carpets to root networks and worm collectives.

149 For carpet, total PFAS release was greater in live than abio

150 shock crystal growth" eventually produces 2D carpet-type fractal morphology, and moreover dendrites f

151 d close to the bilayer surface, indicating a carpet-type mechanism of action for the peptide.

152 ed and returned to the market in the form of carpet underlayment.

153 uch graft unfolding using a double roll, (2) carpet unrolling while fixating 1 graft edge (Dirisamer

154 eltaS < 0) indicated that PFAS leaching from carpet was dominantly controlled by entropy-driven proce

155 (TMTP) was observed after the furniture and carpet was introduced to the computer room, suggesting f

156 One of the home-aged carpets was installed in an 18 m(3) room-sized chamber,

157 considering sedimentation towards an active carpet, we find a self-cleaning effect where surface-dri

158 ombus shape is not like a "hill" but like a "carpet." We find that thrombus growth rate is enhanced b

159 ge sampling efficacies for R1, R2, and R3 on carpet were 26, 162, and 92% of vacuum sock sampling eff

160 One plastic product and a carpet were installed horizontally to investigate the di

161 Over 15 years, the family's household carpets were treated 8 times with Scotchgard formulation

162 of a displacement wave (akin to a kink in a carpet), which requires the molecules to overcome only a

163 ridging complex and from the surrounding DNA carpet, which led to plasmid detachment.