Add to ORKGThe serology-based methods routinely used in forensic casework for the identification of biological fluids are costly in terms of time and sample and have varying degrees of sensitivity and specificity. Recently, the use of a molecular genetics-based approach using messenger RNA (mRNA) profiling has been proposed to supplant conventional methods for body fluid identification. However, the size of the amplification products used in these mRNA assays (similar to 200-300 nt) might not be ideal for use with degraded or compromised samples frequently encountered in forensic casework. Recently, there has been an explosion of interest in a novel class of small noncoding RNAs, microRNAs (miRNAs, similar to 20-25 bases in length), with numerous publ...
MicroRNAs have a potential to be ideal forensic markers due to their small size (∼22 nt), high abund...
Conventional methods of body fluid identification use labor-intensive, technologically diverse techn...
Micro-RNAs (miRNAs) can be specifically expressed in forensically relevant body fluids such as blood...
The serology-based methods routinely used in forensic casework for the identification of biological ...
The development of molecular genetics-based body fluid identification methods in forensic science ha...
textabstractMicroRNAs (miRNAs) are non-protein coding molecules with important regulatory functions;...
RNA-based body fluid and tissue identification has evolved as a promising and reliable new technique...
Numerous studies have demonstrated the ability to identify the body fluid of origin of forensic biol...
The attribution of biological material to a tissue source, also known as body fluid identification (...
Analysis of biological evidence typically begins with a preliminary screening for the presence of bi...
When processing a crime scene, obtaining a DNA profile that can identify an individual is extremely ...
Body fluids/tissue identification (BFID) is an essential procedure in forensic practice, and RNA pro...
Analysis of biological evidence typically begins with a preliminary screening for the presence of bi...
MicroRNAs have a potential to be ideal forensic markers due to their small size (~22nt), high abunda...
MicroRNAs have a potential to be ideal forensic markers due to their small size (∼22 nt), high abund...
Conventional methods of body fluid identification use labor-intensive, technologically diverse techn...
Micro-RNAs (miRNAs) can be specifically expressed in forensically relevant body fluids such as blood...
The serology-based methods routinely used in forensic casework for the identification of biological ...
The development of molecular genetics-based body fluid identification methods in forensic science ha...
textabstractMicroRNAs (miRNAs) are non-protein coding molecules with important regulatory functions;...
RNA-based body fluid and tissue identification has evolved as a promising and reliable new technique...
Numerous studies have demonstrated the ability to identify the body fluid of origin of forensic biol...
The attribution of biological material to a tissue source, also known as body fluid identification (...
Analysis of biological evidence typically begins with a preliminary screening for the presence of bi...
When processing a crime scene, obtaining a DNA profile that can identify an individual is extremely ...
Body fluids/tissue identification (BFID) is an essential procedure in forensic practice, and RNA pro...
Analysis of biological evidence typically begins with a preliminary screening for the presence of bi...
MicroRNAs have a potential to be ideal forensic markers due to their small size (~22nt), high abunda...
MicroRNAs have a potential to be ideal forensic markers due to their small size (∼22 nt), high abund...
Conventional methods of body fluid identification use labor-intensive, technologically diverse techn...
Micro-RNAs (miRNAs) can be specifically expressed in forensically relevant body fluids such as blood...