Ph Dependent(Ph 종속)란 무엇입니까?
Ph Dependent Ph 종속 - mutans and more sustained CHX-release which was pH dependent. [1] The above experimental results revealed that Cr(VI) adsorption by PAN-GO-Fe3O4 was pH dependent and maximum adsorption capacity was found to be 124. [2] The concentration is both pH dependent and depth dependent. [3] The experimental results show that, the adsorption was pH dependent with a high adsorption capacity of NR dye in acidic range. [4] Adsorption of the used ions was found to be pH dependent and maximum removal of the ions by outer layer of onions and was found to be 99. [5] The results revealed that AlepOBP6 can bind to two sex pheromones and 10 maize volatiles, and its conformation stability is pH dependent. [6] The adsorption of As(V) was pH dependent; the optimal removal was achieved at pH 2 and 5 for inorganic and organic As(V), respectively. [7] Drug release from magnetic microspheres was found to be pH dependent. [8] Elemental analysis by XPS and ICP-MS show that the surface concentration of REEs on kaolinite is pH dependent, and a local maximum of the surface concentration is achieved at pH 10. [9] Adsorption studies at different pH values (monitored by surface plasmon resonance spectroscopy) confirm that the adhesion of protein is pH dependent and reversible, that is, protein can be released upon a pH change from pH 3 to pH 7. [10] As Tf iron release is pH dependent, any changes in intraorganelle and extracellular pH, often associated with disease progression, could inhibit normal iron delivery or accelerate iron release in the wrong compartment. [11] Tether-ring formation is reversible and pH dependent. [12] Batch experiments indicated that phosphate uptake by LPAP was pH dependent with the optimal pH range of 3-6, and efficient phosphate removal (nearly 100%) was maintained in the co-existence of anions (Cl-, NO3- and SO42-). [13] The physicochemical properties of chitosan, such as apparent charge density and solubility, are pH dependent. [14] The increase in aggregation rate and relative viscosity for mAb1 was found to be both concentration and pH dependent. [15] The obtained results indicate that the adsorption is pH dependent. [16] 5 mM and 20 mM) showed that the incorporation of iodate was pH dependent and was favored at lower pH and higher Si concentration within 7 days. [17] Batch adsorption measurements show that U(VI) adsorption is pH dependent, with an optimum pH range of 5. [18] Treatment with all coagulants and flocculants used is pH dependent. [19]mutans 및 pH 의존성인 보다 지속적인 CHX-방출. [1] 위의 실험 결과에 따르면 PAN-GO-Fe3O4에 의한 Cr(VI) 흡착은 pH 의존적이며 최대 흡착 용량은 124인 것으로 나타났습니다. [2] 농도는 pH 의존적이며 깊이 의존적입니다. [3] 실험 결과는 산성 범위에서 NR 염료의 높은 흡착 용량에 따라 흡착이 pH 의존적임을 보여줍니다. [4] 사용한 이온의 흡착은 pH 의존적이며 양파의 외층에 의한 이온의 최대 제거는 99로 나타났다. [5] 결과는 AlepOBP6이 2개의 성 페로몬과 10개의 옥수수 휘발성 물질에 결합할 수 있으며 그 형태 안정성은 pH 의존적이라는 것을 보여주었습니다. [6] As(V)의 흡착은 pH 의존적이었습니다. 무기 및 유기 As(V) 각각에 대해 pH 2 및 5에서 최적의 제거가 달성되었습니다. [7] 자기 미소구체로부터의 약물 방출은 pH 의존적인 것으로 밝혀졌다. [8] XPS 및 ICP-MS에 의한 원소 분석에 따르면 카올리나이트에 대한 REE의 표면 농도는 pH 의존적이며 표면 농도의 국부적 최대값은 pH 10에서 달성됩니다. [9] 다양한 pH 값(표면 플라즈몬 공명 분광법으로 모니터링)에서의 흡착 연구는 단백질의 접착이 pH 의존적이고 가역적임을 확인시켜줍니다. 즉, 단백질은 pH 3에서 pH 7로의 pH 변화에 따라 방출될 수 있습니다. [10] Tf 철 방출은 pH 의존적이므로, 종종 질병 진행과 관련된 세포내 및 세포외 pH의 변화는 정상적인 철 전달을 억제하거나 잘못된 구획에서 철 방출을 가속화할 수 있습니다. [11] 테더링 형성은 가역적이며 pH 의존적입니다. [12] 배치 실험은 LPAP에 의한 인산염 흡수가 3-6의 최적 pH 범위에서 pH 의존적이었고 음이온(Cl-, NO3- 및 SO42-)이 공존할 때 효율적인 인산염 제거(거의 100%)가 유지되었음을 나타내었습니다. [13] 겉보기 전하 밀도 및 용해도와 같은 키토산의 물리화학적 특성은 pH에 따라 다릅니다. [14] mAb1에 대한 응집 속도 및 상대 점도의 증가는 농도 및 pH 의존성 둘 다인 것으로 밝혀졌다. [15] 얻어진 결과는 흡착이 pH 의존적임을 나타냅니다. [16] 5mM 및 20mM)은 요오드산염의 혼입이 pH 의존적이며 7일 이내에 더 낮은 pH 및 더 높은 Si 농도에서 선호됨을 보여주었습니다. [17] 배치 흡착 측정은 U(VI) 흡착이 최적 pH 범위가 5인 pH 의존적임을 보여줍니다. [18] 사용된 모든 응고제 및 응집제 처리는 pH에 따라 다릅니다. [19]
Highly Ph Dependent 높은 Ph 의존
Study results revealed that arsenic leaching from chicken litter is highly pH dependent and alkaline pH is a favourable condition for leaching of arsenic from litter. [1] Under UV illumination, electron hole pairs generated in FAgNPs resulted in the migration of photo generated electrons for the reduction process which is highly pH dependent. [2] Collector concentration (> 4 × 10−6 mol/l IPETC) had little effect whilst the flotation response was highly pH dependent. [3] We found the hydrolysis rate constants to be highly pH dependent, with a hydrolysis lifetime of 51(±13) min at pH = 4 and 24(±3) min at pH = 2. [4] Labile Zn partitioning between the solid and the solution phases of soil was highly pH dependent, where 94 % of the variation in the partitioning coefficient of 70Zn was explained by soil pH. [5] The adsorption of MB is highly pH dependent and utmost sorption was found at pH 7. [6] The sorption of Cu2+ and Ni2+ on AWRS700 was highly pH dependent and behaved optimally at the solution pH values of 6 and 5, respectively. [7] The adsorption is highly pH dependent: while it is optimum at basic pH, it decreases by a 70% at pH 2. [8] 535 nm, which were found to be highly pH dependent, the emission being ‘switched on’ in acidic media, while being quenched due to PET from the amino moieties to the excited state of the Nap at more alkaline pH. [9] The results showed that the adsorptive properties were highly pH dependent. [10]연구 결과에 따르면 닭 깔짚에서 나오는 비소 침출은 pH 의존성이 높고 알칼리성 pH는 깔짚에서 비소 침출에 유리한 조건입니다. [1] UV 조명 하에서, FAgNPs에서 생성된 전자 정공 쌍은 pH 의존성이 높은 환원 과정을 위해 광 생성 전자의 이동을 초래했습니다. [2] 수집기 농도(> 4 × 10-6mol/l IPETC)는 거의 효과가 없었지만 부유 반응은 pH에 크게 의존했습니다. [3] 우리는 발견 가수분해 속도 상수는 가수분해와 함께 pH 의존도가 매우 높음 pH = 4에서 51(±13) min, pH에서 24(±3) min의 수명 = 2. [4] nan [5] nan [6] nan [7] nan [8] nan [9] nan [10]
Strongly Ph Dependent 강하게 Ph 의존
In the case of alginate reticulated using Mn, the strongly pH dependent behavior of the resulting hydrogel is evaluated as a possible way to introduce a triggered release functionality on the devices. [1] Increasing the adsorbent dose favors gallium adsorption and makes the adsorption process strongly pH dependent. [2] In-depth investigation reveals that the PAA oxidation mechanism is strongly pH dependent. [3] Signal state formation experiments on a time scale of seconds were found to be strongly pH dependent, and formation of both anionic and neutral FAD radicals could be detected, with reaction rates increasing by a factor of ~2. [4] The adsorption capacity of ZSM-5 was strongly pH dependent and sharply decreased at the pKa values of the thiols. [5] Because this reaction is strongly pH dependent, the incorrect choice of pH can result in an uncontrollable temperature increase caused by the system’s inability to dissipate the large amount of heat generated in a short time, causing accidents such as structural damage and explosions. [6] The PAHs removal efficiency increased with ozone dosage and was strongly pH dependent. [7] pH study showed that the adsorption is strongly pH dependent, increases for MB while decreases for AR88 with increasing the pH from 4 to 11. [8] The results of batch studies revealed that the adsorption of brilliant green was strongly pH dependent and maximum brilliant green removal was observed at equilibrium pH of 5. [9]Mn을 사용하여 망상화된 알지네이트의 경우, 생성된 하이드로겔의 강한 pH 의존적 거동은 장치에 트리거된 방출 기능을 도입할 수 있는 가능한 방법으로 평가됩니다. [1] 흡착제 용량을 늘리면 갈륨 흡착이 촉진되고 흡착 과정이 pH에 크게 의존하게 됩니다. [2] nan [3] nan [4] nan [5] nan [6] nan [7] nan [8] nan [9]
Also Ph Dependent 또한 Ph 종속
Release into the biphasic system was also pH dependent, in line with dapivirine's pKa and with potential implications for in vivo release and absorption in women with elevated vaginal pH. [1] Desorption of long-chain PFASs was also pH dependent in unremediated soils, with desorption being greater at high pH. [2] Metal binding was also pH dependent, with no binding observed at lower pH values. [3] Their BCF was also pH dependent and approximately proportional to the neutral fraction of the amine in the water. [4]2상 시스템으로의 방출은 또한 pH 의존적이었고, 이는 다피비린의 pKa 및 상승된 질 pH를 갖는 여성의 생체내 방출 및 흡수에 대한 잠재적인 의미와 일치합니다. [1] 장쇄 PFAS의 탈착은 또한 미보양 토양에서 pH 의존적이었고 탈착은 높은 pH에서 더 컸다. [2] nan [3] nan [4]
Exhibit Ph Dependent
It is a weak base and thus exhibits pH dependent solubility. [1] Dextransuccrase resembles in its catalytic properties with the brush boarder sucrase and exhibits pH dependent inhibitory and stimulatory effects in response to Na+. [2]Exhibited Ph Dependent
Pentamidine exhibited pH dependent irreversible oxidation peaks at high anodic potentials through a diffusion-controlled process as the benzamidine moieties of pentamidine are oxidized to benzamidoxime. [1] The films exhibited pH dependent redox activity and thin layer behavior up to 100mVs-1. [2]펜타미딘의 벤즈아미딘 부분이 벤즈아미독심으로 산화됨에 따라 펜타미딘은 확산 제어 과정을 통해 높은 양극 전위에서 pH 의존적 비가역 산화 피크를 나타냈습니다. [1] nan [2]
Revealed Ph Dependent
EXAFS studies as well as DFT calculations of the metal-peptide complexes revealed pH dependent changes in the metal-ligand bond distances. [1] In-vitro dissolution, release studies revealed pH dependent dissolution and sustained drug release. [2]EXAFS 연구와 금속-펩티드 복합체의 DFT 계산은 금속-리간드 결합 거리의 pH 의존적 변화를 보여주었습니다. [1] nan [2]
Show Ph Dependent Ph 종속 표시
5% and the drug release shows pH dependent behavior. [1] Furosemide is a BCS class IV drug selected as model drug which shows pH dependent solubility and permeability and it is better absorbed from the gastric region, hence to improve dissolution and residence at absorption site of such drug, floating drug delivery system is needed. [2]5% 및 약물 방출은 pH 의존적 거동을 나타냅니다. [1] Furosemide는 pH 의존적 용해도 및 투과성을 나타내는 모델 약물로 선택된 BCS class IV 약물이며 위 부위에서 더 잘 흡수되어 이러한 약물의 용해도 및 흡수 부위에서의 체류를 개선하기 위해 부유 약물 전달 시스템이 필요하다. [2]
Showed Ph Dependent Ph 의존적 표시
Prepared hydrogels showed pH dependent swelling behavior. [1] All the formulations showed pH dependent drug release with a slow and sustained release profile. [2]준비된 하이드로겔은 pH 의존적 팽윤 거동을 보였다. [1] 모든 제형은 느리고 지속 방출 프로파일을 갖는 pH 의존적 약물 방출을 나타내었다. [2]
Different Ph Dependent 다른 Ph 의존
Initially, core tablets were prepared and then the tablets were coated by using different pH dependent polymers. [1] Due to the importance of 5-fluorouracil (5-FU) in different tumor therapy regimens, it has been widely used in different pH dependent drug delivery systems. [2]초기에 코어 정제를 제조한 다음 다른 pH 의존성 중합체를 사용하여 정제를 코팅하였다. [1] 다양한 종양 치료 요법에서 5-플루오로우라실(5-FU)의 중요성으로 인해 다양한 pH 의존성 약물 전달 시스템에서 널리 사용되었습니다. [2]
ph dependent behavior Ph 의존적 행동
5% and the drug release shows pH dependent behavior. [1] In the case of alginate reticulated using Mn, the strongly pH dependent behavior of the resulting hydrogel is evaluated as a possible way to introduce a triggered release functionality on the devices. [2] DOX could be loaded on PEGylated CNCs with high capacity and released from drug complexes (P-CNCs-D) with pH dependent behavior. [3] Release profile of DCX from Ncs showed a sustained and pH dependent behavior with a faster release at acidic pH, which could be favorable in the intracellular drug delivery. [4] In this review, the potential and pH dependent behavior of tungsten in aqueous media are discussed. [5] The epigenetic nucleobase 5 carboxylcytosine (caC) presents a particularly interesting example since this derivative forms Watson-Crick base pairs of similar stability and displays pH dependent behavior over the same range as the canonical nucleobase. [6]5% 및 약물 방출은 pH 의존적 거동을 나타냅니다. [1] Mn을 사용하여 망상화된 알지네이트의 경우, 생성된 하이드로겔의 강한 pH 의존적 거동은 장치에 트리거된 방출 기능을 도입할 수 있는 가능한 방법으로 평가됩니다. [2] nan [3] nan [4] nan [5] nan [6]
ph dependent drug Ph 의존 약물
Due to the importance of 5-fluorouracil (5-FU) in different tumor therapy regimens, it has been widely used in different pH dependent drug delivery systems. [1] All the formulations showed pH dependent drug release with a slow and sustained release profile. [2] The obtained nanoparticles were fully characterized, conjugation was verified, and pH dependent drug release profile was shown. [3] pH dependent drug release study of the MOF particles was carried out at 3 different pH values, i. [4] Purposed for dual therapy, the nanoparticles exhibit an impressive 90% drug loading capacity with pH dependent drug releasing rates of 10% at pH 7. [5]다양한 종양 치료 요법에서 5-플루오로우라실(5-FU)의 중요성으로 인해 다양한 pH 의존성 약물 전달 시스템에서 널리 사용되었습니다. [1] 모든 제형은 느리고 지속 방출 프로파일을 갖는 pH 의존적 약물 방출을 나타내었다. [2] nan [3] nan [4] nan [5]
ph dependent release Ph 종속 릴리스
pH dependent release of the compound was observed. [1] In vitro release study showed biphasic pH dependent release of CTZ HCl, where initial burst release was observed at acidic pH followed by sustained release at basic pH. [2] Besides the chemical and mineralogical composition of soils, waste rock and slag samples, water-soluble and exchangeable/reversibly adsorbed Sb species were also determined, as well as the pH dependent release of Sb. [3] The swelling and in vitro CFX release studies revealed that incorporation of ZnO NPs in the hydrogel matrix has not only improved the swelling characteristics and thermal stability of the hydrogel matrix but also exhibited more controlled and pH dependent release of CFX. [4]화합물의 pH 의존적 방출이 관찰되었다. [1] 시험관 내 방출 연구는 CTZ HCl의 2상 pH 의존적 방출을 보여주었으며, 초기 폭발 방출은 산성 pH에서 관찰된 후 염기성 pH에서 지속 방출이 관찰되었습니다. [2] nan [3] nan [4]
ph dependent solubility Ph 의존적 용해도
The CMTs were made by template based adsorption-precipitation method using chitosan with excellent biocompatibility as raw material due to its characteristic of pH dependent solubility. [1] Furosemide is a BCS class IV drug selected as model drug which shows pH dependent solubility and permeability and it is better absorbed from the gastric region, hence to improve dissolution and residence at absorption site of such drug, floating drug delivery system is needed. [2] It is a weak base and thus exhibits pH dependent solubility. [3]CMT는 pH 의존적 용해도의 특성으로 인해 생체 적합성이 우수한 키토산을 원료로 사용하여 주형 기반 흡착-침전 방법으로 제조되었습니다. [1] Furosemide는 pH 의존적 용해도 및 투과성을 나타내는 모델 약물로 선택된 BCS class IV 약물이며 위 부위에서 더 잘 흡수되어 이러한 약물의 용해도 및 흡수 부위에서의 체류를 개선하기 위해 부유 약물 전달 시스템이 필요하다. [2] nan [3]
ph dependent redox
5, thin layer behaviour and pH dependent redox chemistry. [1] The films exhibited pH dependent redox activity and thin layer behavior up to 100mVs-1. [2] The population of quinone groups at the interface of the embedded carbon nanoparticles was increased through anodisation and their pH dependent redox transitions exploited as the basis of a reagentless pH sensor. [3]ph dependent manner Ph 의존적 방식
Here we report on the interaction between αS and the polyphenol tannic acid (TA), where a combination of solution NMR, atomic force microscopy (AFM), and ThT assays have identified that TA targets the αS N-terminal domain to inhibit amyloid fibril formation in a pH dependent manner. [1] Biophysical assays confirmed specific binding to Zn2+, inducing membrane association and enhancing chloride efflux in a pH dependent manner. [2] The viral particles are then transported into early and late endosomes, where viral RNA is released in a low-pH dependent manner at about 70 minutes post-infection. [3]여기에서 우리는 αS와 폴리페놀 탄닌산(TA) 사이의 상호 작용에 대해 보고합니다. 여기서 용액 NMR, 원자력 현미경(AFM) 및 ThT 분석의 조합은 TA가 아밀로이드 원섬유 형성을 억제하기 위해 αS N-말단 도메인을 표적으로 한다는 것을 확인했습니다. pH 의존적 방식으로. [1] 생물물리학적 분석은 Zn2+에 대한 특이적 결합을 확인하여 막 결합을 유도하고 pH 의존적 방식으로 염화물 유출을 향상시켰습니다. [2] nan [3]
ph dependent swelling Ph 의존적 붓기
Similarly, pH dependent swelling was observed, experiencing higher swelling at higher pH as compared to lower pH. [1] Prepared hydrogels showed pH dependent swelling behavior. [2] The effect of concentration of the cross-linker on the morphology, surface charge, pH dependent swelling was studied. [3]유사하게, pH 의존적 팽윤이 관찰되었으며, 더 낮은 pH에 비해 더 높은 pH에서 더 높은 팽윤을 경험하였다. [1] 준비된 하이드로겔은 pH 의존적 팽윤 거동을 보였다. [2] nan [3]
ph dependent surface Ph 의존 표면
Variation of dye adsorption with pH dependent surface charge characteristics of photocatalyst resulted about one order higher degradation rate constant of MB at high pH. [1] They showed good aqueous colloidal stability, pH dependent surface charge characteristics and superparamagnetic behavior at room temperature. [2] Most recent studies were carried out with materials whose pH dependent surface charging is already well-documented, and the newest results are consistent with the older literature. [3]광촉매의 pH 의존적 표면 전하 특성에 따른 염료 흡착의 변화는 높은 pH에서 MB의 분해 속도 상수가 약 1차 더 높은 결과를 가져왔습니다. [1] 그들은 우수한 수성 콜로이드 안정성, pH 의존성 표면 전하 특성 및 실온에서 초상자성 거동을 보여주었다. [2] nan [3]
ph dependent emission
Moreover, the reported probe exhibited aggregation-enhanced emission (AEE) characteristics and pH dependent emission colour. [1] Graphical abstract Schematic representation of hydrothermal synthesis of highly fluorescent N-doped carbon dots with novel pH dependent emission and their application for the simultaneous determination of Cu(II) and Fe(III) with individual ion discrimination. [2]ph dependent sensitivity Ph 의존 감도
Moreover, the review also expounds on to case reports where, the drug delivery aspect of rHDL is augmented through stimuli sensitivity (ultrasounds, magnetic field, photodynamic therapy) and pH dependent sensitivity approaches. [1] All LMA grafted hydrogels showed temperature responsive behavior and pH dependent sensitivity in swelling, with reduced equilibrium swelling capacity values compared to sample without lignin. [2]또한, 리뷰는 자극 민감성(초음파, 자기장, 광역학 요법) 및 pH 의존적 민감성 접근을 통해 rHDL의 약물 전달 측면이 증대되는 사례 보고서에 대해서도 설명합니다. [1] 모든 LMA 이식된 하이드로겔은 리그닌이 없는 샘플과 비교하여 감소된 평형 팽윤 용량 값과 함께 팽윤에서 온도 반응성 거동 및 pH 의존적 감도를 보여주었습니다. [2]
ph dependent rate Ph 종속 비율
According to speciation of Ni2+ and pH dependent rate constants, rate expression can be written as: d[Ni(TMPyP)4+]/dt = (k1[Ni2+(aq)] + k2[Ni(OH)+(aq)] + k3[Ni(OH)2o(aq)] + k4[Ni(OH)3-(aq)])[H2TMPyP4+], where k1, k2, k3 and k4 were found to be k1 = (0. [1] Based on the speciation of Ni2+ and pH dependent rate constants, rate expression can be written as: d[Ni(TMPyP)4+]/dt = (k1[Ni2+(aq)] + k2[Ni(OH)+(aq)] + k3[Ni(OH)2o(aq)] + k4[Ni(OH)3-(aq)])[H2TMPyP4+], where k1, k2, k3 and k4 were found to be k1 = (0. [2]Ni2+ 및 pH 종속 속도 상수의 지정에 따라 속도 표현은 다음과 같이 쓸 수 있습니다. d[Ni(TMPyP)4+]/dt = (k1[Ni2+(aq)] + k2[Ni(OH)+(aq)] + k3[Ni(OH)2o(aq)] + k4[Ni(OH)3-(aq)])[H2TMPyP4+], 여기서 k1, k2, k3 및 k4는 k1 = (0. [1] Ni2+ 및 pH 종속 속도 상수의 종분화에 따라 속도 식은 다음과 같이 쓸 수 있습니다. d[Ni(TMPyP)4+]/dt = (k1[Ni2+(aq)] + k2[Ni(OH)+(aq) ] + k3[Ni(OH)2o(aq)] + k4[Ni(OH)3-(aq)])[H2TMPyP4+], 여기서 k1, k2, k3 및 k4는 k1 = (0. [2]
ph dependent catalytic Ph 의존 촉매
The encapsulated CytC showed better pH dependent catalytic activity compared to free enzyme and provides a proof-of-concept model to engineer these small protein cages for their potential as catalytic nanoreactors. [1] Easy fabrication of inorganic clay muscovite (MUS) embedded poly(2-acrylamido-2-methyl-1-propane sulfonic acid-co-diethylaminoethyl methacrylate-co-hydroxyethyl methacrylate) (PADH) nanocomposite cryogels with dual temperature/pH dependent catalytic potential was reported. [2]캡슐화된 CytC는 유리 효소에 비해 더 나은 pH 의존적 촉매 활성을 보였고 촉매 나노반응기로서의 잠재력을 위해 이러한 작은 단백질 케이지를 엔지니어링하기 위한 개념 증명 모델을 제공합니다. [1] 이중 온도/pH 의존 촉매 전위를 갖는 무기 점토 백운모(MUS) 매립 폴리(2-아크릴아미도-2-메틸-1-프로판 설폰산-코-디에틸아미노에틸 메타크릴레이트-코-하이드록시에틸 메타크릴레이트)(PADH) 나노복합체 크리오겔의 용이한 제조는 보고했다. [2]
ph dependent binding Ph 종속 바인딩
Due to its specificity for primary amines and pH dependent binding properties, squaric acid (SA) represents an excellent tool for selective coupling of the appropriate chelator to different target vectors. [1] pH dependent binding of calcium ions was resolved using pKa values into, respectively, Kass,1, Kass,2 and Kass,3 = 20, 37 and 180 L mol−1 with ΔH0ass,1 ΔH0ass,2 ΔH0ass,3 = 16, −7. [2]1차 아민에 대한 특이성과 pH 의존적 결합 특성으로 인해 squaric acid(SA)는 적절한 킬레이터를 다양한 표적 벡터에 선택적으로 결합하는 데 탁월한 도구입니다. [1] 칼슘 이온의 pH 의존적 결합은 pKa 값을 사용하여 각각 Kass,1, Kass,2 및 Kass,3 = 20, 37 및 180L mol-1(ΔH0ass,1 ΔH0ass,2 ΔH0ass,3 = 16, − 7. [2]
ph dependent polymer Ph 의존성 폴리머
Initially, core tablets were prepared and then the tablets were coated by using different pH dependent polymers. [1] Conclusion An M cell targeted-ternary nanocomposite system obtained by dual coating of the aminoclay-protein core complex with UEA-1 and a pH dependent polymer is promising as an effective oral protein delivery carrier. [2]초기에 코어 정제를 제조한 다음 다른 pH 의존성 중합체를 사용하여 정제를 코팅하였다. [1] 결론 아미노클레이-단백질 코어 복합체를 UEA-1 및 pH 의존성 고분자로 이중 코팅하여 얻은 M 세포 표적 삼원 나노복합체 시스템은 효과적인 경구 단백질 전달 운반체로서 유망하다. [2]
ph dependent oxidation Ph 의존성 산화
In these conditions, single oval shaped, well-defined and pH dependent oxidation peak was observed in the potential range from 0. [1] The biosynthesis of triterpenoids relies on the efficient synthesis of squalene epoxide, which is synthesized from the NADPH dependent oxidation of squalene catalyzed by squalene epoxidase. [2]이러한 조건에서 단일 타원형의 잘 정의된 pH 의존적 산화 피크가 0에서 전위 범위에서 관찰되었습니다. [1] 트리테르페노이드의 생합성은 스쿠알렌 에폭시다아제에 의해 촉매되는 스쿠알렌의 NADPH 의존성 산화로부터 합성되는 스쿠알렌 에폭사이드의 효율적인 합성에 의존합니다. [2]