Hybridization
increase the salt concentration can create an _____ which creates a false positive
artificial hydrogen binding
why will SyBrGreen I not mark the DNA past the melting temperature
because after dsDNA gets to the melting temperature it becomes single stranded so SyBrGreen can not longer mark it
why do we use non-denaturing gel electrophoresis in SSCP
because we are concerned with shape and not size
if conditions of stringency are set too low, then the probe will ____
bind unrelated targets and thus result in false data
the main commonality between SSCP and heteroduplex is
both assays detect the formation of partial duplex DNA that could be separated by a non-denaturing capillary gel electrophoresis
the target is _____ to the probe
complementary
the two system that capillary electrophoresis can be run
completely denatured and non-denatured condition
can design a positive and negative ____ to set stringency
control
after we heat to DNA so its becomes denatured, we slowly ____
cool
in heteroduplex analysis, we heat to ____
denature dsDNA
heteroduplex analysis involves _____ and ____
denaturing and hybridization
the target is the nucleic acid we want to ____
detect
in the condition that ____ or in the _____ of complementary strand, the ___ ssDNA forms intra-strand duplexes
disfavors; absence of complementary strand; diluted
nucleic acid hybridization is the formation of ______ between two ______ via a sequence specific interaction
double stranded duplex; complementary single strand molecules
SyBrGreen I marks ____
dsDNA
at melting temperature, half of the sequence is ______ while the other half is _____
dsDNA; ssDNA
when the target and probe come together, they form a ____ molecule
duplex
if condition of stringency are set too low, then the probe will bind unrelated targets and thus result in ____
false data
the dissociation of dsDNA to ssDNA as temperature rises can be monitored by the use of ____
fluorescent dye that binds only to the dsDNA
usually a ____ label is applied to the probe as an enzyme tag
fluorescent label or radioactive enzyme
lower stringency conditions are rather ____
forgiving
occasionally, if denaturant like ____ is included in the buffer, then its concentration could so affect stringency
formamide
why would we not want to add formamide, urea, and heat to the non-denaturing gel electrophoresis of SSCP
formamide, urea, and heat would denature the DNA
clinical molecular labs attempt to visualize and detect a particular ____ or ____ of interest
gene; region
____ analysis is the mixing of nucleic acid fragments with reference fragments followed by denaturing and hybridization that can detect mutations
heteroduplex analysis
the higher the stringency, the ___ perfect correctly matched hybridization between the probe and the target nucleic acid in specimens
higher
term meaning the combination of conditions under which the target is exposed to the probe
hybridization stringency
lowered temperature or elevated salt concentration can result in a forgiving condition and thus permit the formation of ____
incorrect heteroduplexes
in the condition that disfavors or in the absence of complementary strand, the diluted ssDNA forms _____
intra-strand duplexes
the target is usually ____ than the probe
larger
capillary electrophoresis can be run in a completely denatured condition to determine the ____
length of DNA fragments carrying similar sizes with a few bases in difference
____ and the ____ of the probe sequence could affect stringency
length; nature of the probe
after the hybridization assay, if negative signal was obtained in the "positive control" probe, the improvement strategy would be to
lower hybridization temperature raise hybridization salt concentration
the probe is commonly ____
marked or labeled
____ exploits the sequence and stacking directed denaturation characteristics of DNA duplex
melt curve analysis
assay the requires the use of fluorescent dye for binding ssDNA
melting curve
involves data generated from both assays is indicative of GC%
melting curve
the main commonality between melting curve analysis and single-strand conformation polymorphism is _____
melting of dsDNA into ssDNA; ssDNA then becomes an important target to be detected in both assays
_____ is the opposite of hybridization
melting temperature
the ideal hybridization conditions are inferred form calculation of the ____
melting temperature of the given probe sequence
at Tm, because half of the DNA sequence is double stranded and the other half is single stranded, Tm is the ____ of the melting curve
midpoint
a long probe or one with higher GC will bind under ____ stringent conditions, than a short probe
more
heteroduplex analysis allows you to detect ____
mutations
_____ is the formation of double stranded duplex between two complementary single strand molecules via a sequence specific interaction
nucleic acid hybridization
the amount of intra-strand duplexes is mainly determined by ____
nucleic acid sequence
the migration of single stranded conformer in _____ or in ____ under precisely controlled non-denaturing _____ conditions distinguishes sequence of variants even through single-base mutations
polyacrylamide; gel electrophoresis; temperature
the proper stringency is guided by how specimen hybridized to ___ probes
positive and negative probes
the 3D structure and shape of the intra-strand duplex is determined by the _____
primary sequence of the folded strand
____ is a single stranded sequence of nucleic acid that is complementary to the nucleic acid sequence of interest
probe
either the probe or the target DNA can be labeled, but generally ____ is labeled
probe
the first things we need to do is to denature dsDNA so that the _____ can bind to ssDNA
probe
the test reagent in nucleic acid hybridization
probe
the condition of high stringency are more demanding of the ____
probe/target complementarity and length
after the hybridization assay, if a positive signal was obtained from the "negative control" probe the improvement strategy would be to
raise hybridization temperature and lower hybridization salt concentration
high stringency has ____ mismatch
rare
the reference fragments are in the _____
reagents
the non-denaturing gel electrophoresis used in SSCP allows you to visualize ____
secondary structure
the migration of single-stranded conformer in polyacrylamide or in capillary gels electrophoresis under precisely controlled non-denatureing and temperature conditions distinguishes _____
sequence of variants even though single-base mutations
capillary electrophoresis can be run in a non-denatured condition to assess the subtle differences in ____
shape or confirmation of the target nucleic acids
the probe is _____ sequence of nucleic acid that is complementary to the nucleic acid sequence of interest
single stranded
_____ is based on preference of ssDNA to exist in a partially dsDNA rather than completely single stranded state
single-strand conformation polymorphism (SSCP)
capillary electrophoresis ran in non-denatured condition disregards ____
size
the probe is generally a _____
small strand of ssDNA
the nucleic acid fragments are in the ____
specimens
SyBrGreen II marks ____
ssDNA or ssRNA
single strand conformation polymorphism is based on the preference of ____ to exist in a ____ rather than completely single stranded state
ssDNA to exist in a partially dsDNA
GelRed marks ____
ssDNA/ssRNA and dsDNA/dsRNA
SyBrGold marks ____
ssDNA/ssRNA and dsDNA/dsRNA
____ is the nucleic acid of interest
target
you can increase stringency by increasing _____, lowering ____, and increasing _____
temperature; salt concentration; increase formamide concentration
melting temperature is a way of correlating the amount of ______ required to _____
temperature; separate hybridized strand of a given sequence
high stringency give you ____ base pairing and ____ mismatch
true; low
capillary electrophoresis can be run in ___ systems
two
heteroduplexes can be detected by ____ methods
two
heteroduplexes are formed when _____ sequences occur
unmatched
if conditions of stringency are set too high, then the probe ____
will not bind to its target
heteroduplexes can be detected by what two methods
1. formation of heteroduplex slows down migration 2. the un-matched region of the heteroduplex can be cleaved by S1-nucleases and thus results in fragments
process of heteroduplex analysis
1. get the reference and specimen DNA 2. heat and then cool to 25oC 3. cool to denaturing temperature 4. hybridization
steps of SSCP
1. take DNA specimen with reagent and denature to make ssDNA 2. heat to melting temperature to make ssDNA 3. heating to melting temperature creates secondary structure due to intra-molecule base pairing 4. analyze on non-denaturing gel
the main factors affecting stringency include _____
1. temperature at hybridization 2. salt concentration of the hybridization buffer
optimal hybridization temperature is determined by ____
1. types of nucleic acid hybrids 2. probe sequence
how many base pairs are normally in a probe
20 base pairs
the phenomenon of intra-strand duplexes results in a ____
3D structure and shape
the hybridization temperature of oligonucleotide probes can be tentatively set at ___ below the melting temperature
5oC
the hybridization temperature has to be ___
5oC below Tm
what would we want our starting stringency temperature to be
5oC below the melting temperature
the higher the concentration of _____ the higher the melting point
GC
why would higher concentration of GC cause melting point to rise
GC are connected by a triple hydrogen bond
probe sequence refers to ____
GC% content
normally, ____ hybrids will require a higher temperature than ____ hybrids
RNA:RNA > RNA:DNA > DNA:DNA
an extra fragment will derive from heteroduplexes after ____ digestion
S1-nuclease
assay that requires non-denaturing gel electrophoresis
SSCP
involves detecting the ability to form intra-stand duplexes
SSCP
how is SSCP the opposite of capillary electrophoresis
SSCP is concerned with shape; capillary electrophoresis is concerned with molecules of similar size
____ will mark dsDNA in the Tm curve
SyBrGreen I
