四甲基霍胺透明质酸 来源于马链球菌
基本信息
| 产品名称 | 四甲基霍胺透明质酸 来源于马链球菌 |
|---|---|
| 英文名称 | Tetramethylrhodamine hyaluronic acid from Streptococcus equi |
| 别名 | T-hyaluronic acid;Tetramethylrhodamine Hyaluronic Acid |
| 英文别名 | T-hyaluronic acid;Tetramethylrhodamine Hyaluronic Acid;Tetramethyl-rhodamine hyaluronic acid Hyaluronan;Tetramethyl-rhodamine B hyaluronan;6´bis(tetramethylamino) -3-oxospiro(isobenzofuran-1(3H),9´-9H]xanthen]-5(or 6)- yl). |
| 规格或纯度 | average mol wt 5000000 |
| 运输条件 | 超低温冰袋运输 |
一般描述
THA-Se is supplied a red solid which is soluble in water. Tetramethyl-rhodamine hyaluronic acid (THA-Se) has similar applications to those described for fluorescein hyaluronic acid (see FHA-Se) but has certain advantages. As mentioned earlier, the fluorescence of tetramethyl-rhodamine is less dependent on pH than FITClabels. Also, the longer emission wavelength avoids interference from background images in experimental environments. Invasive growth into brain tissue employing TR-HA and 2-photon imaging has been described. Hyaluronic acid (HA) can be obtained from various sources, for example rooster combs or Streptococcus equi. We can supply derivatives of either of these qualities labelled with or with tetramethylrhodamine (T-Ha). All batches are checked for molecular weight, degree of substitution, loss on drying and free TRITC. Hyaluronic acid is a polysaccharide composed of alternating β(1-3) glucuronide and β(1-4) glucosaminide units derived from Streptococcus equi. The hyaluronic acid is labelled with amino-tetramethylrhodamine. The degree of substitution lies between 0.001 and 0.008. The labelling procedures do not lead to depolymerisation of the HA.
Spectral data
T-Ha has an excitation maximum at 552 nm and an emission maximum at 576 nm.
Application
T-Ha have been used to e.g. investigate invasive growth into brain tissue.
THA-Se is supplied a red solid which is soluble in water. Tetramethyl-rhodamine hyaluronic acid (THA-Se) has similar applications to those described for fluorescein hyaluronic acid (see FHA-Se) but has certain advantages. As mentioned earlier, the fluorescence of tetramethyl-rhodamine is less dependent on pH than FITClabels. Also, the longer emission wavelength avoids interference from background images in experimental environments. Invasive growth into brain tissue employing TR-HA and 2-photon imaging has been described. Hyaluronic acid (HA) can be obtained from various sources, for example rooster combs or Streptococcus equi. We can supply derivatives of either of these qualities labelled with or with tetramethylrhodamine (T-Ha). All batches are checked for molecular weight, degree of substitution, loss on drying and free TRITC. Hyaluronic acid is a polysaccharide composed of alternating β(1-3) glucuronide and β(1-4) glucosaminide units derived from Streptococcus equi. The hyaluronic acid is labelled with amino-tetramethylrhodamine. The degree of substitution lies between 0.001 and 0.008. The labelling procedures do not lead to depolymerisation of the HA.
Spectral data
T-Ha has an excitation maximum at 552 nm and an emission maximum at 576 nm.
Application
T-Ha have been used to e.g. investigate invasive growth into brain tissue.
相关属性
| 敏感性 | 对空气敏感 |
|---|---|
| 溶解性 | 容易溶解在水中 |
| 储存温度 | -20°C储存,充氩,干燥 |
| 品牌 | Jinpan |