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广州市所在地
美国Seracare心肌磷脂Cardiolipin
广州健仑生物科技有限公司
广州健仑长期供应各种生物原料,主要代理品牌:美国Seracare、西班牙Certest、美国Fuller等等。
主要产品包括各种标准品、阳性对照品、单克隆抗原抗体。
其中常见的有:弓形虫病、西尼罗河病毒、类风湿因子、疟疾、麻疹、莱姆病、百日咳杆菌、大肠杆菌、鼠伤寒沙门氏菌、李斯特菌等阳性对照品。
美国Seracare心肌磷脂Cardiolipin
我司还提供其它进口或国产试剂盒:登革热、疟疾、流感、A链球菌、合胞病毒、腮病毒、乙脑、寨卡、黄热病、基孔肯雅热、克锥虫病、违禁品滥用、肺炎球菌、军团菌、化妆品检测、食品安全检测等试剂盒以及日本生研细菌分型诊断血清、德国SiFin诊断血清、丹麦SSI诊断血清等产品。
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【Seracare产品介绍】
编号 | 英文名称 | 中文名称 |
JL-FA-01 | Amebiasis (AME) | 阿米巴病 |
JL-FA-02 | Allergens, Rast scores | 过敏原,放射性过敏原吸收实验。指对特定的人群引起免疫反应或者过敏反应的食品中的蛋白质 |
JL-FA-03 | Allergens, Rast scores negative | 过敏原,放射性过敏原吸收实验阴性 |
JL-FA-04 | Anti-cyclic citrullinated peptide Antibody (CCP) Arthritis | 抗环瓜氨酸肽抗体 |
JL-FA-05 | ASCA Saccharomyces Cerevi | 人抗酿酒酵母抗体(ASCA) |
JL-FA-06 | Aspergillis | 麴菌病 |
JL-FA-07 | Beta 2 Glycoprotein | β2糖蛋白 |
JL-FA-08 | Beta 2 Glycoprotein IgM | β2糖蛋白 IGM |
JL-FA-09 | Bordela Pertussis | 百日咳杆菌 |
JL-FA-10 | Bordela Pertussis IgM | 百日咳杆菌 IGM |
JL-FA-11 | C-ANCA | C-抗中性粒细胞胞浆抗体(ANCA) |
JL-FA-12 | Cardiolipin | 心肌磷脂 |
JL-FA-13 | Cardiolipin IgA | 心肌磷脂 IGA |
JL-FA-14 | Cardiolipin IgG | 心肌磷脂 IGG |
JL-FA-15 | Cardiolipin IgM | 心肌磷脂 IGM |
JL-FA-16 | Cerebral Spinal Fluid | 脑脊髓液 |
JL-FA-17 | Chagas | 恰加斯病/南美锥虫 |
JL-FA-18 | Chlamydia | 衣原体 |
JL-FA-19 | Chlamydia IgA | 衣原体IGA |
JL-FA-20 | Chlamydia IgG | 衣原体IGG |
JL-FA-21 | Chlamydia IgM | 衣原体IGM |
JL-FA-22 | Chlamydia Neg | 衣原体阴性 |
JL-FA-23 | Clotting Factor C3 | 凝固因子C3 |
JL-FA-24 | Clotting Factor C4 | 凝固因子C4 |
JL-FA-25 | Coccidiodes | 球孢菌 |
JL-FA-26 | Cytomegalovirus (CMV) Neg | 巨细胞病毒抗体阴性 |
JL-FA-27 | CMV IgG | 巨细胞病毒 IGG阳性 |
JL-FA-28 | CMV IgM VCA | 巨细胞病毒 IGM 阳性 |
JL-FA-29 | C-Reactive Protein (CRP) | C-反应蛋白质 |
JL-FA-30 | Dengue Fever | 登革热 |
JL-FA-31 | Dengue Fever IgM | 登革热 IGM |
JL-FA-32 | DS (Double Stranded) DNA | 双链脱氧核糖核酸 |
JL-FA-33 | EBNA (Epstein-Barr nuclear antigen) IgG | EB病毒核抗原 IGG |
JL-FA-34 | EBNA (Epstein-Barr nuclear antigen) IgM | EB病毒核抗原 IGM |
JL-FA-35 | Epstein Barr Virus (EBV) Negative Plasma | EB病毒阴性血浆 |
JL-FA-36 | Epstein Barr Virus (EBV) EA IgM | EB病毒早期抗原 IGM |
JL-FA-37 | Epstein Barr Virus (EBV) VCA IgM | EB病毒壳蛋白 IGM |
JL-FA-38 | Epstein Barr Virus (EBV) EA IgG | EB病毒早期抗原 IGG |
JL-FA-39 | EMA (Endomysial Antibodies) | 肌内膜 |
JL-FA-40 | Gliadin | 麸蛋白,麦醇溶蛋白,麦胶蛋白 |
JL-FA-41 | Gliadin IgG | 麦醇溶蛋白 IGG |
JL-FA-42 | Gliadin IgA | 麦醇溶蛋白 IGA |
JL-FA-43 | Glomerular Basement Membrane (GBMA) | 肾小球基底膜病 |
JL-FA-44 | Helicobacter pylori IgA | 幽门螺旋杆菌IGA |
JL-FA-45 | Helicobacter pylori IgG | 幽门螺旋杆菌IGG |
JL-FA-46 | Helicobacter pylori IgM | 幽门螺旋杆菌IGM |
JL-FA-47 | Helicobacter pylori Negative | 幽门螺旋杆菌阴性 |
JL-FA-48 | Helicobacter pylori Positive Plasma | 幽门螺旋杆菌阴性血浆 |
JL-FA-49 | Hepatitis A Virus (HAV) Pos. Plasma | 甲型肝炎病毒阳性血浆 |
JL-FA-50 | Hepatitis A Virus (HAV) IgM | 甲型肝炎病毒IGM |
JL-FA-51 | Hepatitis B Core (HBc) IgG | 乙型肝炎病毒核心 IGG |
JL-FA-52 | Hepatitis B Core (HBc) IgM | 乙型肝炎病毒核心 IGM |
JL-FA-53 | Anti Hbe (Antibody to HBV antigen) | 乙肝抗体 |
JL-FA-54 | Hepatitis Delta Virus | 丁型肝炎病毒 |
JL-FA-55 | HBeAg (HBV e antigen) | 乙肝 E抗原 |
JL-FA-56 | anti-HBs (HBV surface antibody) | 乙肝表面抗体 |
JL-FA-57 | Hepatitis B (HBsAg) "Chronic" | 乙型肝炎(乙肝表面抗原)“慢性病 |
JL-FA-58 | HBsAg (HBV surface antigen) Serum | 乙肝表面抗原血清 |
JL-FA-59 | HBsAg (AD) | 乙肝表面抗原(AD) |
JL-FA-60 | HBsAg (AY) | 乙肝表面抗原(AY) |
JL-FA-61 | HBV Positive Plasma | 乙肝阳性血浆 |
JL-FA-62 | HBV DNA Plasma | 乙肝DNA血浆 |
JL-FA-63 | HBV DNA Serum | 乙肝DNA血清 |
JL-FA-64 | HBV DNA type A | A型 乙肝DNA |
JL-FA-65 | HBV DNA type B | B型 乙肝DNA |
JL-FA-66 | HBV DNA type C | C型 乙肝DNA |
JL-FA-67 | HBV DNA type D | D型 乙肝DNA |
JL-FA-68 | HBV DNA type E | E型 乙肝DNA |
JL-FA-69 | HBV DNA type F | F型 乙肝DNA |
JL-FA-70 | HBV Antibody HCV Antibody Plasma CO-INFECTED | 乙肝和丙肝联合感染血浆 |
JL-FA-71 | HCV (Hepatitis C Virus) Antibody | 丙型肝炎抗体 |
JL-FA-72 | HCV Core Antigen Positive | 丙肝核心抗原 阳性 |
JL-FA-73 | HCV RNA PLASMA Genotype 1 | 基因1型丙肝RNA 血浆 |
JL-FA-74 | HCV RNA PLASMA Genotype 2 | 基因2型丙肝RNA 血浆 |
JL-FA-75 | HCV RNA PLASMA Genotype 3 | 基因3型丙肝RNA 血浆 |
JL-FA-76 | HCV RNA PLASMA Genotype 4 | 基因4型丙肝RNA 血浆 |
JL-FA-77 | HCV RNA PLASMA Genotype 5 | 基因5型丙肝RNA 血浆 |
JL-FA-78 | HCV RNA PLASMA Genotype 6 | 基因6型丙肝RNA 血浆 |
JL-FA-79 | HCV Riba single band | 丙肝免疫印迹单波段 |
JL-FA-80 | HCV RIBA Pos. (multiple bands) | 丙肝免疫印迹阳性多波段 |
JL-FA-81 | HCV Negative | 丙肝阴性 |
JL-FA-82 | HCV RNA Pos (quantitative) | 丙肝RNA阳性(定量) |
JL-FA-83 | Hepatitis E | 戊型肝炎 |
JL-FA-84 | Herpes Simplex Virus (HSV)1/2 Positive Plasma | 单纯性疱疹病毒1/2阳性血浆 |
JL-FA-85 | Herpes Simplex Virus (HSV) 1 Negative Plasma | 单纯性疱疹病毒1 阴性血浆 |
JL-FA-86 | Herpes Simplex Virus (HSV) 1 IgG | 单纯性疱疹病毒1 IGG |
JL-FA-87 | Herpes Simplex Virus (HSV 1) IgM | 单纯性疱疹病毒1 IGM |
JL-FA-88 | Herpes Simplex Virus (HSV) 2 IgG | 单纯性疱疹病毒2 IGG |
JL-FA-89 | Herpes Simplex Virus (HSV) 2 IgM | 单纯性疱疹病毒2 IGG |
JL-FA-90 | Histone | 组蛋白 |
JL-FA-91 | Human Anti Mouse Ab (HAMA) | 人抗鼠抗体 |
JL-FA-92 | Human immunodeficiency virus (HIV) 1 Neg | HIV I 阴性 |
JL-FA-93 | anti Human immunodeficiency virus (HIV) 1 Plasma | 抗HIV I 血浆 |
JL-FA-94 | anti Human immunodeficiency virus (HIV) 1 Serum | 抗HIV I 血清 |
JL-FA-95 | anti Human immunodeficiency virus (HIV) 2 Western Blot Tested | 抗HIV 2 免疫印迹 |
JL-FA-96 | anti Human immunodeficiency virus (HIV) 1/2 2 HIV (+) | 抗HIV 1/2 2 HIV阳性 |
JL-FA-97 | Human immunodeficiency virus (HIV) Ag | HIV抗原 |
JL-FA-98 | HIV RNA (quantitative) Plasma | HIV RNA 定量血浆 |
JL-FA-99 | HIV RNA (quantitative) Serum | HIV RNA 定量血清 |
JL-FA-100 | HIV1 Subtype A | HIV1 亚型A |
JL-FA-101 | HIV1 Subtype B | HIV1 亚型B |
JL-FA-102 | HIV1 Subtype C | HIV1 亚型C |
JL-FA-103 | HIV1 Subtype D | HIV1 亚型D |
JL-FA-104 | HIV1 Subtype E | HIV1 亚型E |
JL-FA-105 | HIV1 Subtype F | HIV1 亚型F |
JL-FA-106 | HIV1 Subtype G | HIV1 亚型G |
JL-FA-107 | HIV1 Subtype H | HIV1 亚型H |
JL-FA-108 | HIV1 Subtype J | HIV1 亚型J |
JL-FA-109 | HIV1 Subtype K | HIV1 亚型K |
JL-FA-110 | HIV1 Group O | HIV1 亚型O |
JL-FA-111 | Human immunodeficiency virus (HIV) 2 Antibody Plasma | HIV 2 抗体血浆 |
JL-FA-112 | Human immunodeficiency virus (HIV) 2 Antibody Serum | HIV 2 抗体血清 |
JL-FA-113 | HPV (Human Papiloma Virus) Negative | 人乳状瘤病毒HPV阴性 |
JL-FA-114 | HPV (Human Papiloma Virus) Positive | 人乳状瘤病毒HPV阳性 |
JL-FA-115 | Human immunodeficiency virus (HIV) Antibody HCV Antibody Plasma COINFECTED | HIV 抗体 HCV |
JL-FA-116 | Human T-cell Lymphotropic Virus (HTLV) I/II | 人嗜T淋巴细胞病毒(HTLV) I/II |
JL-FA-117 | Human T-cell Lymphotropic Virus (HTLV) I | 人嗜T淋巴细胞病毒(HTLV) I |
JL-FA-118 | Human T-cell Lymphotropic Virus (HTLV) II | 人嗜T淋巴细胞病毒(HTLV) II |
JL-FA-119 | Jo-1 | 多发性肌炎抗原JO-1 |
JL-FA-120 | IgE < 5,000 Ku/L | IgE < 5,000 Ku/L |
JL-FA-121 | Legionella | 军团杆菌属 |
JL-FA-122 | Leptospira | 军团杆菌属 |
JL-FA-123 | Lyme Disease | 莱姆(氏)病:蜱传播的全身性疾病,常在夏季发生 |
JL-FA-124 | Lyme IgG | 莱姆(氏)病 IGG |
JL-FA-125 | Lyme IgM | 莱姆(氏)病 IGM |
JL-FA-126 | Lyme Disease Neg | 莱姆(氏)病 阴性 |
JL-FA-127 | Malaria | 疟疾 |
JL-FA-128 | Mononucleosis (infectious) | 单核细胞增多症(有传染性的) |
JL-FA-129 | Mononucleosis Negative | 单核细胞增多症阴性 |
JL-FA-130 | Measles Negative | 麻疹 阴性 |
JL-FA-131 | Measles IgG | 麻疹 IGG |
JL-FA-132 | Measles IgM | 麻疹 IGM |
JL-FA-133 | Microsomal Anti-thyroid peroxidase antibody (TPO) Positive Plasma Standard Titer (typically 1,000-3,000 IU/mL) | 微粒体抗甲状腺过氧化物酶抗体 |
JL-FA-134 | Microsomal Anti-thyroid peroxidase antibody (TPO) Negative Plasma | 微粒体抗甲状腺过氧化物酶抗体 |
JL-FA-135 | Anti-mitochondrial antibody (AMA) | 抗线粒体抗体 |
JL-FA-136 | Multiple Sclerosis | 多发性硬化症 |
JL-FA-137 | Mumps IgG | 流行性腮腺炎 IGG |
JL-FA-138 | Mumps Ab IgM | 流行性腮腺炎抗体 IGM |
JL-FA-139 | Mumps Antibody Negative Plasma | 流行性腮腺炎抗体阴性血浆 |
JL-FA-140 | Mumps Antibody Negative Serum | 流行性腮腺炎抗体阴性血清 |
JL-FA-141 | Myeloma Plasma | 骨髓瘤血浆 |
JL-FA-142 | Myeloma IgA | 骨髓瘤IGA |
JL-FA-143 | Myeloma IgE | 骨髓瘤IGE |
JL-FA-144 | Myeloma IgG | 骨髓瘤IGG |
JL-FA-145 | Myeloma IgM | 骨髓瘤IGM |
JL-FA-146 | Mycoplasma | 支原体 |
JL-FA-147 | Mycoplasma Negative | 支原体阴性 |
JL-FA-148 | Mycoplasma IgG | 支原体IGG |
JL-FA-149 | Mycoplasma IgM | 支原体IGM |
JL-FA-150 | Mycoplasma PCR | 支原体PCR |
JL-FA-151 | Normal Human Plasma | 正常人血浆 |
JL-FA-152 | Normal Human Serum | 正常人血清 |
JL-FA-153 | Nuclear Antibody Centromere | 核抗体着丝粒 |
JL-FA-154 | Nuclear Antibody, Speckled ANA | 核抗体,斑点抗核抗体 |
JL-FA-155 | Nuclear Antibody, Nucleolar ANA | 核抗体,核仁抗核抗体 |
JL-FA-156 | Nuclear Antibody, Homogeneous ANA | 核抗体,同质抗核抗体 |
JL-FA-157 | Nuclear Antiobody, Speckled. (ANA) Negative | 核抗体,斑点。抗核抗体阴性 |
JL-FA-158 | P-ANCA (associated neutrophil cytoplasmic antibodies) | 相关的嗜中性粒细胞胞浆抗体 |
JL-FA-159 | Parietal Cell Antibody (PCA) | 胃)壁细胞抗体 |
JL-FA-160 | Parvo positive plasma | 细小病毒阳性血浆 |
JL-FA-161 | Parvo IgM | 细小病毒 IGM |
JL-FA-162 | Parvo IgG | 细小病毒 IGG |
JL-FA-163 | Parvo Negative Plasma | 细小病毒阴性血浆 |
JL-FA-164 | Parvo DNA positive | 细小病毒 DNA 阳性 |
JL-FA-165 | Phospholipid Positive Plasma | 磷脂阳性血浆 |
JL-FA-166 | Prothrombin | 凝血酶原,凝血因子 |
JL-FA-167 | Rheumatoid Factor (RF) <1000 IU/mL | 类风湿因子<1000 IU/mL |
JL-FA-168 | Rheumatoid Factor (RF) 1001-2000 IU/mL | 类风湿因子1001-2000 IU/mL |
JL-FA-169 | Rheumatoid Factor (RF) 2001-4000 IU/mL | 类风湿因子 2001-4000 IU/mL |
JL-FA-170 | Rheumatoid Factor (RF) 4001-5000 IU/mL | 类风湿因子 4001-5000 IU/mL |
JL-FA-171 | Rheumatoid Factor (RF) >5000 IU/mL | 类风湿因子>5000 IU/mL |
JL-FA-172 | Ribonucleoprotein (RNP) Positive | 核糖核蛋白阳性 |
JL-FA-173 | Rubella Chimeric | 风疹 |
JL-FA-174 | Rubella Negative | 风疹阴性 |
JL-FA-175 | Rubella IgG | 风疹IGG |
JL-FA-176 | Rubella IgM | 风疹IGM |
JL-FA-177 | Rubeola Negative Plasma | 风疹阴性血浆 |
JL-FA-178 | Rubeola IgG | 风疹IGG |
JL-FA-179 | Scleroderma (Scl-70) Pos | 胶原沉着病,硬皮病,硬皮症 阳性 |
JL-FA-180 | Scleroderma (Scl-70) Negative | 硬皮病阴性 |
JL-FA-181 | Sickle Cell Fresh Whole Blood | 镰刀形红细胞新鲜全血 |
JL-FA-182 | Smith (SM) | 抗Smith抗体阳性血清(SLE的特征性抗体) |
JL-FA-183 | SMITH RNP | 抗RNP抗体阳性血清(SLE的特征性抗体) |
JL-FA-184 | Smooth Muscle (ASMA) | 抗平滑肌抗体阳性血清 |
JL-FA-185 | Sjogren syndrome antigen A (SSA) Positive | 舍格伦综合征或干燥综合征抗原A 阳性 |
JL-FA-186 | Sjogren syndrome antigen B (SSB) Positive | 舍格伦综合征抗原B 阳性 |
JL-FA-187 | Sjogren syndrome antigen B (SSB) Negative | 舍格伦综合征抗原B阴性 |
JL-FA-188 | Streptolysin O Ab (ASO) | 链球菌溶血素O抗体 |
JL-FA-189 | Syphilis (RPR - Rapid Plasma Reagin) Positive Plasma | 梅毒(梅毒-快速血浆反应)阳性血浆 |
JL-FA-190 | Syphilis (RPR - Rapid Plasma Reagin) Negative Plasma | 梅毒(梅毒-快速血浆反应)阴性血浆 |
JL-FA-191 | Syphilis/ATA/T. pallidum IgG | 梅毒ATA/T,苍白球IGG |
JL-FA-192 | Syphilis/ATA/T. pallidum IgM | 梅毒ATA/T,苍白球IGM |
JL-FA-193 | Systemic Lupus Erythematosus (SLE) Positive | 全身性红斑狼疮阳性 |
JL-FA-194 | Systemic Lupus Erythematosus (SLE) Negative | 全身性红斑狼疮阴性 |
JL-FA-195 | TG/TPO Positive (Standard Titer 1,000 - 3000 IU/mL) | 甲状腺球蛋白/甲状腺过氧化物酶阳性 |
JL-FA-196 | TG/TPO Negative | 甲状腺球蛋白/甲状腺过氧化物酶阴性 |
JL-FA-197 | TTG (Tissue Transglutaminase) | 组织转谷氨酰胺酶 |
JL-FA-198 | TTG (Tissue Transglutaminase) IgA | 组织转谷氨酰胺酶 IGA |
JL-FA-199 | ToRCH (Toxo, Rubella, CMV, HSV) Positive | 优生优育(弓形虫,风疹,巨细胞,单胞)阳性 |
JL-FA-200 | ToRCH (Toxo, Rubella, CMV, HSV) Negative | 优生优育(弓形虫,风疹,巨细胞,单胞)阴性 |
JL-FA-201 | Toxoplasmosis (Toxo) | 弓形虫病 |
JL-FA-202 | Toxoplasmosis (Toxo) IgG | 弓形虫病IGG |
JL-FA-203 | Toxoplasmosis (Toxo) IgM | 弓形虫病IGM |
JL-FA-204 | Thyroglobulin (TG) Positive Plasma | 甲状腺球蛋白阳性血浆 |
JL-FA-205 | Thyroglobulin (TG) Negative | 甲状腺球蛋白阴性 |
JL-FA-206 | Varicella-Zoster Virus (VZV) Negative | 水痘-带状疱疹病毒阴性 |
JL-FA-207 | Varicella-Zoster Virus (VZV) IgG | 水痘-带状疱疹病毒IGG |
JL-FA-208 | Varicella-Zoster Virus (VZV) IgM | 水痘-带状疱疹病毒IGM |
JL-FA-209 | West Nile Virus (WNV) | 西尼罗河脑炎病毒 |
JL-FA-210 | West Nile Virus (WNV) IgM | 西尼罗河脑炎病毒IGM |
美国Seracare
每种生物都有一个共同的目标:生存。它的所有体细胞都在协同工作,以保持它活着。它们是通过微调的沟通手段而达成目的的。联合柏林和剑桥大学,卢森堡大学的卢森堡系统生物医学中心(LCSB)的科学家*揭示细胞信号从周围环境转换为内部信号的规律。就像一支管弦乐队的一个孤立的音符,细胞的一个孤立信号处于次要性的地位。
“重要的是,该信号从细胞膜传递到细胞的强度和频率的相对变化,”这项研究的*、LCSB的Alexander Skupin博士说,这项研究发表于《science Signaling》杂志上。
通过使空气振动,一支管弦乐队的乐器从而产生信号——音符。在细胞内,钙离子负责携带信号。当来自于环境的一片信息——比如一个生物信使——与细胞的外膜相遇,细胞内的钙离子被释放。在那里,钙离子控制各种适应过程。“乍一看,并没有简单的离子冲动模式,” Skupin解释;“但它们在细胞内仍然以一种有意义的反应达到高潮,就像一个特定基因的激活。”
为了确定这一现象的潜在规律,研究人员结合成像技术和数学方法,研究人类肾细胞和大鼠肝细胞。他们发现,钙冲动的强度和频率经历了的变化——都发生在细胞-内部和细胞-细胞之间。因此,它们所传达的信息不能被孤立的信号单独分析进行解释。“这就像在一个乐团,在那里自己学习孤立的音符不容许有任何旋律的结果,”Skupin延续了音乐的比喻。 “你必须听听所有仪器的频率和音量如何变化,以及产生旋律。然后你获得了音乐作品的印象。”
现在,研究人员*成功地通过倾听细胞的交流而获得这样一整个印象。他们发现,钙冲动的过多变化导致彼此相对于一个特定的关系中:外部的刺激不会导致钙冲动的增长,恰恰相反的是它们发生时的频率有了变化——音乐厅中,交响曲中的仪器的音符会上升和下降。“这种模式是导致细胞反应的实际信号,” Skupin说。“我们的分析已经对此提供了解释。”
“这些结果对于分析疾病很重要,” LCSB的主任鲁迪·巴林教授说。“我们知道,在帕金森病中,神经细胞中的钙平衡被破坏,并怀疑细胞之间的错误通信可能在神经退行性疾病的发病中发挥作用。随着这些通信的基本规律的发现,如Alexander Skupin,他的团队和我们的合作伙伴现在已经实现了,我们在帕金森病的分析中迈进了重要的一步。”
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【公司名称】 广州健仑生物科技有限公司
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Each creature has a common goal: to survive. All its somatic cells are working together to keep it alive. They do this by fine-tuning the means of communication. For the first time, scientists at the Luxembourg Systemic Biomedicine Center (LCSB) in Berlin and the University of Cambridge, University of Luxembourg, have uncovered the law that cellular signals are converted from the surrounding environment to internal signals. Like an isolated note of an orchestra, an isolated signal of the cell is secondary.
"Importantly, the relative change in the intensity and frequency of the signal delivered from the cell membrane to the cell," said Alexander Skupin, MD, Ph.D., a study lead author of the study in the journal Science Signaling.
By vibrating the air, an orchestra's instrument produces a signal-note. Within the cell, calcium is responsible for carrying the signal. When a piece of information from the environment - such as a bio-messenger - meets the outer membrane of a cell, intracellular calcium is released. There, calcium ions control various adaptation processes. "At first glance, there is no simple model of ion impulses," Skupin explains; "but they still culminate in a meaningful reaction in the cell, much like the activation of a particular gene."
To determine the underlying law of this phenomenon, researchers used both imaging techniques and mathematical methods to study human kidney cells and rat hepatocytes. They found that the intensity and frequency of calcium impulses underwent extreme changes - both between cells - inside and between cells - cells. Therefore, the information they convey can not be interpreted individually by isolated signals. "It's like in an orchestra where studying isolated or isolated notes does not allow any melody to result," Skupin continues the metaphor of music. "You have to hear how the frequency and volume of all the instruments change, and the melodies." Then you get the impression of a piece of music. "
Now, for the first time, researchers have been able to get such an impression by listening to the exchange of cells. They found that too many changes in calcium impulses lead to one another relative to a particular relationship: external stimuli do not lead to an absolute increase in calcium impulses, but instead the frequency at which they occur has changed - in concert halls, symphonic The notes in the instrument will rise and fall. "This pattern is the actual signal that leads to cellular responses," Skupin said. "Our analysis has provided an explanation for this."
"These results are important for disease analysis," said Rudy Bahrain, director of LCSB. "We know that in Parkinson's disease the balance of calcium in nerve cells is broken and it is suspected that miscommunication between cells may play a role in the pathogenesis of neurodegenerative diseases.With the discovery of the basics of these communications, Alexander Skupin, his team and our partners have now come true and we are taking an important step in the analysis of Parkinson's disease. "
