Texas Red

"Texas Red" is also the name of the outlaw in the country ballad Big Iron.

Texas Red

Identifiers
CAS number	82354-19-6^Y
PubChem	452705
ChemSpider	398742^Y
ChEBI	CHEBI:51247^Y
Jmol-3D images	Image 1
SMILES ClS(=O)(=O)c8ccc(C=1c5c(OC=3C=1\C=C2/C\4=[N+](\CCC2)CCCC=3/4)c7c6c(c5)CCCN6CCC7)c(c8)S([O-])(=O)=O
InChI InChI=1S/C31H29ClN2O6S2/c32-41(35,36)20-9-10-21(26(17-20)42(37,38)39)27-24-15-18-5-1-11-33-13-3-7-22(28(18)33)30(24)40-31-23-8-4-14-34-12-2-6-19(29(23)34)16-25(27)31/h9-10,15-17H,1-8,11-14H2^Y Key: MPLHNVLQVRSVEE-UHFFFAOYSA-N^Y InChI=1/C31H29ClN2O6S2/c32-41(35,36)20-9-10-21(26(17-20)42(37,38)39)27-24-15-18-5-1-11-33-13-3-7-22(28(18)33)30(24)40-31-23-8-4-14-34-12-2-6-19(29(23)34)16-25(27)31/h9-10,15-17H,1-8,11-14H2 Key: MPLHNVLQVRSVEE-UHFFFAOYAU
Properties
Molecular formula	C₃₁H₂₉ClN₂O₆S₂
Molar mass	625.15 g mol⁻¹
Y (verify) (what is: Y/N?) Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Texas Red or sulforhodamine 101 acid chloride is a red fluorescent dye, used in histology for staining cell specimens, for sorting cells with fluorescent-activated cell sorting machines, in fluorescence microscopy applications, and in immunohistochemistry.^[1]^[2] Texas Red fluoresces at about 615 nm, and the peak of its absorption spectrum is at 589 nm. The powder is dark purple. Solutions can be excited by a dye laser tuned to 595-605 nm, or less efficiently a krypton laser at 567 nm. The absorption extinction coefficient at 596 nm is about 85,000 M⁻¹cm⁻¹.

The compound is usually a mixture of two monosulfonyl chlorides, i.e., as pictured, or with the SO₃ and SO₂Cl groups exchanged. It can be used as a marker of proteins, with which it easily forms conjugates via the sulfonyl chloride (SO₂Cl) group. In water, the sulfonyl chloride group of unreacted Texas Red molecules hydrolyses to sulfonate and the molecule becomes the very water soluble sulforhodamine 101 which is easy to wash out selectively. This is one of the advantages of conjugating with Texas Red vs. using a rhodamine-isothiocyanate for conjugation.

A protein with the Texas Red chromophore attached can then itself act as a fluorescent labelling agent; an antibody with a fluorescent marker attached will bind to a specific antigen and then show the location of the antigens as shining spots when irradiated. It is relatively bright, and therefore can be used to detect even weakly expressed antigens. Other molecules can be labeled by Texas Red as well, e.g., various toxins. The dye dissolves very well in water as well as other polar solvents, e.g., Dimethylformamide, acetonitrile.

Texas Red, attached to a strand of DNA or RNA, can be used as a molecular beacon for highlighting specific sequences of DNA. Texas Red can be linked with another fluorophore. A tandem conjugate of Texas Red with R-phycoerythrin (PE-Texas Red) is often used.

Fluorophores, like Texas Red, are commonly used in molecular biology techniques like quantitative RT-PCR and cellular assays.^[3]

Labeling efficiency of nucleic acids as well as proteins has to be quantified prior to furhter experiments. In most cases the amount of labeled sample is minimal. Therefore, specialized nano-volume photometer^[4] offer the possibility to determine the DNA, RNA or protein concentration of a sample as well as incorporation of Texas Red with submicroliter volumes (starting with 0.3 µl). In addition, due to the reduction of the optical pathlength with the NanoPhotometer samples are diluted automatically in comparison to standard cuvette measurements.

Newer rhodamine derivatives, such as Alexa 594 and DyLight 594, have been tailored to match the excitation and emission spectra of Texas Red and are used in various chemical and biological applications where greater photostability or higher fluorescence intensity are needed.

References

^ Titus JA, Haugland R, Sharrow SO, Segal DM (1982). "Texas Red, a hydrophilic, red-emitting fluorophore for use with fluorescein in dual parameter flow microfluorometric and fluorescence microscopic studies". J. Immunol. Methods 50 (2): 193–204. doi:10.1016/0022-1759(82)90225-3. PMID 6806389.
^ Sulforhodamine 101 acid chloride Sigma-Aldrich product information
^ Ahmad AI, Ghasemi JB (2007). "New FRET primers for quantitative real-time PCR". Anal Bioanal Chem 387 (8): 2737–43. doi:10.1007/s00216-007-1123-4. PMID 17308892.
^ Kartha, R. Spectrophotometric Quantification of Nano- and Standard-Volume Samples, (2008, October 7), American Biotechnology Laboratory, http://www.iscpubs.com/Media/PublishingTitles/b0608kar.pdf