Gene Synthesis has become an essential technology for modern molecular biology and enables the design, build, test, learn, and repeat cycle underpinning innovations in synthetic biology.
At SLS, every project is taken seriously with a focus on accuracy, speed, and low cost. Our experts go extra miles to help you design your projects with their extensive expertise in protein engineering, structural biology, cell biology and molecular biology. Minimizing your risk of wasting money, more importantly, saving your time and efforts in reaching your research goals.
SLS Research employs advanced solid phase chemistry with stringent quality control systems to ensure the synthesis of high quality Genes in our facility.
We provide one stop solution from sequence design, optimization, and synthesis, to cloning, verification by sanger sequencing.
Our Ph.D. scientists with strong molecular biology backgrounds can help to synthesize complex gene sequences with difficult regions like highly repetitive, and AT-rich or GC-rich DNA and support you through the project.
Competitive Advantages
Affordable price, plus free subcloning to most commercial vectors.
Free codon optimization to deliver maximal functional protein expression.
Simple or complex genes, all at same prices.
Stringent quality control with 100% Sanger sequencing accuracy.
Consultation & personal support throughout the entire project.
Deliverables:
2 – 5 ug of lyophilized Gene fragment / cloned gene
Sequence trace data with alignment
Sanger sequencing electropherogram
The genes will be cloned into our default pUC57-Amp or pUC57-Kan vectors with multiple cloning sites. We can also clone the genes into customers supplied vectors upon request
TAT:
Length in bp
Turn Around Time in Days
100-1000
8
1000-1500
10
1500-2000
12
2000-3000
15
The turnaround time only applies to the non-complex sequences. Sequences that are unstable and/or toxic to E. coli can substantially affect delivery times.
Gene sequences with added complexity can interfere with assembly and/or sequencing performance. Such sequences may result in less synthesis yield and/or additional services charges.
