Biochemistry Lit Exam Concepts Soluble/Membrane protein function
... etc.). be able to adapt the chemical logic from a primary metabolic pathway to that of a secondary metabolic pathway. DNA technology: Understand underpinnings of gene amplification by PCR and more advanced quantitative techniques. This also includes uses of DNA in nanotechnology. Peptide synthesis: ...
... etc.). be able to adapt the chemical logic from a primary metabolic pathway to that of a secondary metabolic pathway. DNA technology: Understand underpinnings of gene amplification by PCR and more advanced quantitative techniques. This also includes uses of DNA in nanotechnology. Peptide synthesis: ...
The transcription factor AtDOF4.2 regulates shoot branching and
... DOF (DNA-binding with one finger) proteins are a group of plantspecific transcription factors. A typical DOF protein consists of a conserved N-terminal DNA BD (binding domain), a divergent C-terminal end for transcriptional regulation and the conjunctive sequences with a possible NLS (nuclear locali ...
... DOF (DNA-binding with one finger) proteins are a group of plantspecific transcription factors. A typical DOF protein consists of a conserved N-terminal DNA BD (binding domain), a divergent C-terminal end for transcriptional regulation and the conjunctive sequences with a possible NLS (nuclear locali ...
honors biology: final exam review
... Know the basic structure of DNA and RNA, especially the differences between them o Number of strands, sugar, bases o Base-pairing rules Know the goal and basic process of DNA replication o Template, semiconservative model o Major enzymes involved and their functions DNA helicase ...
... Know the basic structure of DNA and RNA, especially the differences between them o Number of strands, sugar, bases o Base-pairing rules Know the goal and basic process of DNA replication o Template, semiconservative model o Major enzymes involved and their functions DNA helicase ...
Advancing Science with DNA Sequence Finding the genes in
... genome in Artemis genome viewer: Sequence features in prokaryotic genomes: stable RNA-coding genes (rRNAs, tRNAs, RNA component of RNaseP, tmRNA) protein-coding genes (CDSs) transcriptional features (mRNAs, operons, promoters, terminators, protein-binding sites, DNA bends) translational feat ...
... genome in Artemis genome viewer: Sequence features in prokaryotic genomes: stable RNA-coding genes (rRNAs, tRNAs, RNA component of RNaseP, tmRNA) protein-coding genes (CDSs) transcriptional features (mRNAs, operons, promoters, terminators, protein-binding sites, DNA bends) translational feat ...
Various Career Options Available
... AC2DGel: is a web server for analysis and comparison of twodimensional electrophoresis (2-DE) Gel images. It helps in annotating the virual 2-D gel image proteins on the basis of known molecular weight andpH scales of the markers. DNASIZE: Computation of DNA/Protein size -> This web-server allow to ...
... AC2DGel: is a web server for analysis and comparison of twodimensional electrophoresis (2-DE) Gel images. It helps in annotating the virual 2-D gel image proteins on the basis of known molecular weight andpH scales of the markers. DNASIZE: Computation of DNA/Protein size -> This web-server allow to ...
Biotechnology - Elite Education
... now down to 6% large epidemics of Diphtheria In Europe during that time Identify that developments in the 1950s led to biotransformation technologies that could produce required organic compounds such as cortisone and sex hormones Biotransformation is using microbes to convert one compound int ...
... now down to 6% large epidemics of Diphtheria In Europe during that time Identify that developments in the 1950s led to biotransformation technologies that could produce required organic compounds such as cortisone and sex hormones Biotransformation is using microbes to convert one compound int ...
Protein Biosynthesis
... splicing steps to modulate the reactions by mutation and to design proteins that can undergo self-cleavage and protein ligation reactions. 2. The protein splicing elements can be recognized in other forms of protein autoprocessing, ranging from peptide bond cleavage to conjugation with nonprotein mo ...
... splicing steps to modulate the reactions by mutation and to design proteins that can undergo self-cleavage and protein ligation reactions. 2. The protein splicing elements can be recognized in other forms of protein autoprocessing, ranging from peptide bond cleavage to conjugation with nonprotein mo ...
BIOTECHNOLOGY
... then it pulls apart the two strands by breaking the Hbonds between the complementary base pairs. Produces what are called sticky ends (unpaired nucleotides at each end). ...
... then it pulls apart the two strands by breaking the Hbonds between the complementary base pairs. Produces what are called sticky ends (unpaired nucleotides at each end). ...
SWISS-PROT + TrEMBL
... (established 1984). The entries arise from international collaborative efforts and are organised biologically e.g. by structural, functional or evolutioary relationships. The entries include amino acid sequences, and in many cases further annotation including: citations (linked to Medline for abstra ...
... (established 1984). The entries arise from international collaborative efforts and are organised biologically e.g. by structural, functional or evolutioary relationships. The entries include amino acid sequences, and in many cases further annotation including: citations (linked to Medline for abstra ...
Word version of notes
... non-template or antisense strand. 3. The new nucleotides are joined to each other by strong covalent bonds by the enzyme RNA polymerase. 4. Only about 8 base pairs remain attached at a time, since the mRNA molecule peels off from the DNA as it is made. A winding enzyme rewinds the DNA. 5. The initia ...
... non-template or antisense strand. 3. The new nucleotides are joined to each other by strong covalent bonds by the enzyme RNA polymerase. 4. Only about 8 base pairs remain attached at a time, since the mRNA molecule peels off from the DNA as it is made. A winding enzyme rewinds the DNA. 5. The initia ...
letters Solution structure of the DNA-binding domain of MafG
... DNA-binding motifs, is found in many eukaryotic and prokaryotic transcriptional regulatory proteins. The second helix of the motif usually binds to the major groove of DNA and, therefore, is mainly involved in recognition and interaction with specific DNA sequences10. MafG(1–76) contains a similar H ...
... DNA-binding motifs, is found in many eukaryotic and prokaryotic transcriptional regulatory proteins. The second helix of the motif usually binds to the major groove of DNA and, therefore, is mainly involved in recognition and interaction with specific DNA sequences10. MafG(1–76) contains a similar H ...
Assignment DNA - UniMAP Portal
... DNA primers (synthesized such that they are complementary to nucleotide sequences near the ends of the target DNA), DNA polymerase, and an abundance of the four deoxyribonucleotide triphosphates (A, T, G, and C) is added to the target DNA This mixture is then cooled to about 65°C, enabling d ...
... DNA primers (synthesized such that they are complementary to nucleotide sequences near the ends of the target DNA), DNA polymerase, and an abundance of the four deoxyribonucleotide triphosphates (A, T, G, and C) is added to the target DNA This mixture is then cooled to about 65°C, enabling d ...
Gene trap insertion into a novel gene expressed during mouse limb
... that are oriented with proximal to the left, distal to the right, anterior on the top, and posterior on the bottom of the photomicrograph. A: Whole-mount of an E9.5 embryo exhibiting expression in the branchial arch region (arrowhead) and in the forelimb. B: Higher power magnification of the E9.5 fo ...
... that are oriented with proximal to the left, distal to the right, anterior on the top, and posterior on the bottom of the photomicrograph. A: Whole-mount of an E9.5 embryo exhibiting expression in the branchial arch region (arrowhead) and in the forelimb. B: Higher power magnification of the E9.5 fo ...
Fuel Metabolism PART 1: Structure and Function of Protein
... transferred to these compounds is, therefore, 208/243 kcal or 86%. 6-C. About 12 ATP are produced by the TCA cycle (12 x 8 kcal = 96 kcal). The percentage of the total energy available from oxidation of acetate that is converted to ATP is 96/243, or 40%. 7-B. An enzyme increases the rate at which th ...
... transferred to these compounds is, therefore, 208/243 kcal or 86%. 6-C. About 12 ATP are produced by the TCA cycle (12 x 8 kcal = 96 kcal). The percentage of the total energy available from oxidation of acetate that is converted to ATP is 96/243, or 40%. 7-B. An enzyme increases the rate at which th ...
Ribosome binding site Polysomes (多聚核糖体)
... often determined by specific, relatively short amino acid sequence within the proteins themselves. These sequences can be responsible for proteins being secreted, imported into the nucleus or targeted to other organelles. ...
... often determined by specific, relatively short amino acid sequence within the proteins themselves. These sequences can be responsible for proteins being secreted, imported into the nucleus or targeted to other organelles. ...
Classical genetics
... He used a testcross to determine their genotype. That is . . . He mated an unknown tall individual with a true breeding homozygous recessive (short) individual. The unknown was TT, if the offspring were tall. And the . . . unknown was Tt, if half the offspring were tall and half short. ...
... He used a testcross to determine their genotype. That is . . . He mated an unknown tall individual with a true breeding homozygous recessive (short) individual. The unknown was TT, if the offspring were tall. And the . . . unknown was Tt, if half the offspring were tall and half short. ...
Plastid RNA polymerases - Journal of Experimental Botany
... plastid is found in a given cell. Rare exceptions are some cells at an early developmental stage in variegation mutants that possess both normal chloroplasts and aberrant plastids. Segregation of these plastids during further cell division subsequently leads to the formation of white and green patch ...
... plastid is found in a given cell. Rare exceptions are some cells at an early developmental stage in variegation mutants that possess both normal chloroplasts and aberrant plastids. Segregation of these plastids during further cell division subsequently leads to the formation of white and green patch ...
FoldIndex©: a simple tool to predict whether a given protein
... method permits rapid prediction of foldability for a large number of sequences. FoldIndex© is freely available for unlimited use by all classes of users, and returns the results right inside the web page within seconds. FoldIndex© should serve as a valuable tool for protein crystallographers, especi ...
... method permits rapid prediction of foldability for a large number of sequences. FoldIndex© is freely available for unlimited use by all classes of users, and returns the results right inside the web page within seconds. FoldIndex© should serve as a valuable tool for protein crystallographers, especi ...
Chromatin: a multi-scale jigsaw puzzle
... outward. Bends of each direction are facilitated by specific dinucleotides2,3. Neighbouring nucleosomes are separated from each other by 10–50-bp-long stretches of unwrapped linker DNA4; thus, 75–90% of genomic DNA is wrapped in nucleosomes. Access to DNA wrapped in a nucleosome is occluded1 for pol ...
... outward. Bends of each direction are facilitated by specific dinucleotides2,3. Neighbouring nucleosomes are separated from each other by 10–50-bp-long stretches of unwrapped linker DNA4; thus, 75–90% of genomic DNA is wrapped in nucleosomes. Access to DNA wrapped in a nucleosome is occluded1 for pol ...