In silico phase separation in the presence of GM1 in ternary and quaternary lipid bilayers
文献情報
出版日
2015-06-04
DOI
10.1039/C5CP01970B
インパクトファクター
3.676
著者
Ipsita Basu, Chaitali Mukhopadhyay
原文を見る
要旨
Cell membranes are multi-component mixtures with structural and compositional heterogeneity exhibiting a complex phase behavior. Domains formed in cell membranes often known as “Rafts” are of immense importance. Using coarse grained molecular dynamics simulations, we have studied the spontaneous phase separation of the ternary (POPC [1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine]/cholesterol/GM1) and quaternary (POPC/PSM[palmitoyl sphingomyelin]/cholesterol/GM1) lipid bilayers into liquid ordered (Lo) and liquid disordered (Ld) domains due to self-aggregation of GM1 molecules and co-localization of cholesterol with GM1 in accordance with experiments. It is found that GM1 molecules have the ability to associate strongly with each other which leads to the formation of ordered domains in the lipid mixture and the interactions are through the head group and unsaturated tails present in GM1. Preference of cholesterol for association with GM1 over PSM is observed, the domains consisting of GM1 and cholesterol are formed even in the presence of PSM. PSM also forms small domains with cholesterol that are randomly distributed in the Ld phase. Estimation of dynamic quantities like diffusion coefficient also shows that cholesterol has the highest diffusion rate in the Ld phase which is further attributed to its flip flop ability. It is found that in the presence of PSM, cholesterol can undergo flip flop even in the Lo phase. This is accredited to the interaction of cholesterol with PSM from which it can be concluded that in the presence of PSM, the domains formed by GM1 are less tightly packed and less stable than that in the ternary mixture.
関連文献
An effect on the side chain position of D–π–A-type conjugated polymers with sp2-hybridized orbitals for organic photovoltaics
Kwan Wook Song, Ho Jun Song, Tae Ho Lee, Soo Won Heo, Doo Kyung Moon
2013-03-12
Paper
DOI: 10.1039/C3PY00195D
pH degradable dendron-functionalized poly(2-ethyl-2-oxazoline) prepared by a cascade “double-click” reaction
Sebla Onbulak, Amitav Sanyal, Richard Hoogenboom
2013-03-15
Paper
DOI: 10.1039/C3PY00258F
Activation of homogenous polyolefin catalysis with a machine-assisted reactor laboratory-in-a-box (μAIR-LAB)
Benjamin A. Rizkin, Ryan L. Hartman
2020-06-18
Paper
DOI: 10.1039/D0RE00139B
Fully bio-based poly(l-lactide)-b-poly(ricinoleic acid)-b-poly(l-lactide) triblock copolyesters: investigation of solid-state morphology and thermo-mechanical properties
Benoit Gadenne, Carine Alfos
2013-03-21
Paper
DOI: 10.1039/C3PY00300K
Effects of “mature micelle” formation of Pluronic P123 on equilibrium between lactone and carboxylate forms of 10-hydrocamptothecin in water
Tianyuan Ci, Ting Li, Liang Chen, Guangtao Chang
2013-03-06
Paper
DOI: 10.1039/C3PY00118K
A continuous-flow approach for the multi-gram scale synthesis of C2-alkyl- or β-amino functionalized 1,3-dicarbonyl derivatives and ondansetron drug using 1,3-dicarbonyls
Nirmala Mohanta, Krishna Nair, Dasharath Vishambar Sutar, Boopathy Gnanaprakasam
2020-06-19
Paper
DOI: 10.1039/D0RE00171F
Rate enhanced nitroxide-mediated miniemulsion polymerization: effect of nitroxide water solubility
Yi Guo, Mary E. Tysoe, Per B. Zetterlund
2013-03-25
Paper
DOI: 10.1039/C3PY00305A
Fluorescence turn-on detection of DNA based on the aggregation-induced emission of conjugated poly(pyridinium salt)s
Jingfen Sun, Yan Lu, Lei Wang, Dandan Cheng, Yujiao Sun, Xianshun Zeng
2013-05-09
Paper
DOI: 10.1039/C3PY00350G
Synthesis, photophysical and photovoltaic properties of a new class of two-dimensional conjugated polymers containing donor–acceptor chromophores as pendant groups
Yu-Ying Lai, Yen-Ju Cheng, Chiu-Hsiang Chen, Sheng-Wen Cheng, Fong-Yi Cao, Chain-Shu Hsu
2013-03-18
Paper
DOI: 10.1039/C3PY00168G
Hydration capabilities and structures of carbonyl and ether groups in poly(3-(2-methoxyethyl)-N-vinyl-2-pyrrolidone) film
Hengjie Lai, Peiyi Wu
2013-03-13
Paper
DOI: 10.1039/C3PY00239J
こちらもおすすめ
化合物よくある質問
2-ヒドロキシ-5-ニトロベンジンブロモイドの代替品はありますか?
2-ヒドロキシ-5-ニトロベンジンブロモイドは特定の化学反応に適しているため、代替品は限られています。しかし、同様の構造を持つ2-ヒドロキシ-4-ニトロベンジン...
772-33-82-(Bromomethyl)-4-ni...
化合物よくある質問
N-(2-ブロモフェニル)-1-チロール-3-オキソ-3-(ピペリジニル)プロペン-2-イル)ベンゼンアミドを取り扱う際の実験室安全事項は何ですか?
N-(2-ブロモフェニル)-1-チロール-3-オキソ-3-(ピペリジニル)プロペン-2-イル)ベンゼンアミドは有毒で、皮膚や粘膜に刺激を与える可能性があります。...
1800044-77-2N-[(1Z)-1-(2-Bromoph...
化合物よくある質問
1,3プロパンジオール,2-[2-(2アミノ-6クロロ-9Hピリミジン-9-イル)エチル-1,1,2,2-D4]-2,3-ジアセタートの市場動向や研究トレンドはどうですか?
この化合物は、新規治療薬の開発に注目されています。市場では、その有効性と安全性が評価され、研究分野では、分子生物学と医薬化学の新たな発見が期待されています。
1020718-81-31,3-Propanediol, 2-[...
579-44-2Ethanone, 2-hydroxy-...
化合物よくある質問
Succinimidyl-alanyl-phenylalanyl-prolyl-phenylalanine 4-nitroanilide はどの業界で使用されていますか?
Succinimidyl-alanyl-phenylalanyl-prolyl-phenylalanine 4-nitroanilide は主に医薬品開発やポ...
128802-73-3succinimidyl-alanyl-...
化合物よくある質問
メチル6-アミノ-5-クロロピリジン-2-カーボイル酸について、適用される法規ガイドラインは何ですか?
メチル6-アミノ-5-クロロピリジン-2-カーボイル酸(CAS番号: 1256794-05-4)の使用には、GHS( Globally Harmonized S...
1256794-05-4Methyl 6-amino-5-chl...
化合物よくある質問
エチル4-(シクロ Pentagonyl)アミノ-2-メチル硫化基ピリミジン-5-カルボキシレートを取り扱う際の実験室安全事項は何ですか?
取り扱いには、耐薬品性の容器を使用し、通気性の良い場所で操作することを推奨します。漏れ時は、SDS(安全データシート)を参照して適切な措置を取ること。手洗いと洗...
211245-62-4ethyl 4-(cyclopentyl...
化合物よくある質問
(S)-3-ベンZYルピペリジン塩酸塩とは何ですか?
(S)-3-ベンZYルピペリジン塩酸塩は、CAS番号1258940-00-9で表される化合物です。これは、(S)-3-苯基哌啶的盐酸盐であり、主に医薬品の原料と...
1258940-00-9(S)-3-Phenylpiperidi...
化合物よくある質問
3,5-二甲基金剛胺の主な用途は何ですか?
3,5-二甲基金剛胺は、主に医薬品の原料として使用され、また抗うつ薬や抗アルツハイマー薬の開発に利用されます。さらに、化粧品や食品添加物の製造でも重要な役割を果...
19988-45-52-(2,3-Dihydroxyphen...
化合物よくある質問
ビス(4-メチル-2-ペンチル)フェニルカルボン酸エステルの代替品はありますか?
ビス(4-メチル-2-ペンチル)フェニルカルボン酸エステル (CAS番号: 1398066-13-1) の代替品には、ビス(2-エチルヘキシル)フェノールカルボ...
1398066-13-1Bis(4-methyl-2-penty...
掲載誌
Physical Chemistry Chemical Physics
CiteScore:
5.5
自己引用率:
10.3%
年間論文数:
3036
Physical Chemistry Chemical Physics (PCCP) is an international journal co-owned by 19 physical chemistry and physics societies from around the world. This journal publishes original, cutting-edge research in physical chemistry, chemical physics and biophysical chemistry. To be suitable for publication in PCCP, articles must include significant innovation and/or insight into physical chemistry; this is the most important criterion that reviewers and Editors will judge against when evaluating submissions. The journal has a broad scope and welcomes contributions spanning experiment, theory, computation and data science. Topical coverage includes spectroscopy, dynamics, kinetics, statistical mechanics, thermodynamics, electrochemistry, catalysis, surface science, quantum mechanics, quantum computing and machine learning. Interdisciplinary research areas such as polymers and soft matter, materials, nanoscience, energy, surfaces/interfaces, and biophysical chemistry are welcomed if they demonstrate significant innovation and/or insight into physical chemistry. Joined experimental/theoretical studies are particularly appreciated when complementary and based on up-to-date approaches.
おすすめ化合物
おすすめサプライヤー
免責事項
このページに表示される学術雑誌情報は、参考および研究目的のみを目的としています。当社は雑誌出版社とは提携しておらず、投稿の取り扱いも行っておりません。出版に関するお問い合わせは、各雑誌出版社に直接ご連絡ください。
表示されている情報に誤りがある場合は、support@chemtradehub.com までご連絡ください。迅速に確認し、対応いたします。