Protein Synthesis
... codes for a particular protein Protein Synthesis- when the info stored on a gene is “read” and then used to make a protein 3 Parts to Protein Synthesis: 1. Transcription- creating RNA from DNA (occurs in the nucleus) 2. Processing- When RNA is trimmed of its non-proteincoding nucleotides, made small ...
... codes for a particular protein Protein Synthesis- when the info stored on a gene is “read” and then used to make a protein 3 Parts to Protein Synthesis: 1. Transcription- creating RNA from DNA (occurs in the nucleus) 2. Processing- When RNA is trimmed of its non-proteincoding nucleotides, made small ...
Document
... The Urea Cycle In ureotelic organisms the urea cycle disposes of approximately 90% of surplus nitrogen. Urea is formed from ammonia, CO2, and aspartate in a cyclic pathway referred to as the urea cycle. The urea cycle is a mechanism designed to convert NH4+ to urea, a less toxic molecule. Note that ...
... The Urea Cycle In ureotelic organisms the urea cycle disposes of approximately 90% of surplus nitrogen. Urea is formed from ammonia, CO2, and aspartate in a cyclic pathway referred to as the urea cycle. The urea cycle is a mechanism designed to convert NH4+ to urea, a less toxic molecule. Note that ...
Chapter 6 Exploring the ability of α-L-fucose
... fluorescent beads were manually collected, and analyzed by MALDI-TOF MS. Synthesis of soluble lead glycopeptides. Lead glycopeptides 5 - 10 (summarized in Table 2) were synthesized as described previously.14 Briefly, soluble lead glycopeptides were synthesized on Wang resin prefunctionalized with a ...
... fluorescent beads were manually collected, and analyzed by MALDI-TOF MS. Synthesis of soluble lead glycopeptides. Lead glycopeptides 5 - 10 (summarized in Table 2) were synthesized as described previously.14 Briefly, soluble lead glycopeptides were synthesized on Wang resin prefunctionalized with a ...
Principles of Protein Structure
... α Helix • If N-terminus is at bottom, then all peptide N-H bonds point “down” and all peptide C=O bonds point “up”. • N-H of residue n is H-bonded to C=O of residue n+4. • a-Helix has: ...
... α Helix • If N-terminus is at bottom, then all peptide N-H bonds point “down” and all peptide C=O bonds point “up”. • N-H of residue n is H-bonded to C=O of residue n+4. • a-Helix has: ...
Protein Synthesis Instructions
... and the hormones that regulate metabolism are all proteins. Although some of these compounds are highly specialized and have additional materials associated with them (e.g., calcium found in bone tissue), all have proteins as their foundation. ...
... and the hormones that regulate metabolism are all proteins. Although some of these compounds are highly specialized and have additional materials associated with them (e.g., calcium found in bone tissue), all have proteins as their foundation. ...
Document
... conspicuous in the structure of GSH is the non-regular peptide bond that is formed between the sidechain carboxyl group (located in γ position, i.e. two carbons away from the α-carbon carrying the amino group) of glutamic acid (E) and the amino group of the cysteine residue (C), a γ-peptide bond (Fi ...
... conspicuous in the structure of GSH is the non-regular peptide bond that is formed between the sidechain carboxyl group (located in γ position, i.e. two carbons away from the α-carbon carrying the amino group) of glutamic acid (E) and the amino group of the cysteine residue (C), a γ-peptide bond (Fi ...
Translation
... – Charged tRNA enters. Hbonding established between codon (mRNA) and anticodon of (tRNA). Sites include regions of large and small subunits of ribosome. ...
... – Charged tRNA enters. Hbonding established between codon (mRNA) and anticodon of (tRNA). Sites include regions of large and small subunits of ribosome. ...
condensation reaction
... HYDROPHOBIC MOLECULES Lipids are a diverse group of organic compounds That are insoluble in water, but will dissolve in Nonpolar solvent (e.g. ether, chloroform,benzene), Important groups are fats, phospholipids, and Steroids. ...
... HYDROPHOBIC MOLECULES Lipids are a diverse group of organic compounds That are insoluble in water, but will dissolve in Nonpolar solvent (e.g. ether, chloroform,benzene), Important groups are fats, phospholipids, and Steroids. ...
DNA Lecture 2
... In the polymer, the terminal nucleotide at one end will have a free 5'-phosphate group whereas the terminal nucleotide at the other end will have a free 3'OH group. The direction of the chain is defined as 5'→3'. Note that when the phosphate group forms a diester linkage there is only one ionizable ...
... In the polymer, the terminal nucleotide at one end will have a free 5'-phosphate group whereas the terminal nucleotide at the other end will have a free 3'OH group. The direction of the chain is defined as 5'→3'. Note that when the phosphate group forms a diester linkage there is only one ionizable ...
Instructor`s Copy Lab Worksheet
... Horse and pigeon – both have 12 differences compared to humans 6. Is it possible that the two organisms you listed in question 7 are equally related to humans but not equally related to each other (HINT: are you sure that the amino acid differences in each organism’s cytochrome-c are the same)? EXPL ...
... Horse and pigeon – both have 12 differences compared to humans 6. Is it possible that the two organisms you listed in question 7 are equally related to humans but not equally related to each other (HINT: are you sure that the amino acid differences in each organism’s cytochrome-c are the same)? EXPL ...
Protein synthesis File
... Activated RNA nucleotides line up opposite their exposed complimentary bases: ...
... Activated RNA nucleotides line up opposite their exposed complimentary bases: ...
Protein primary structure: Amino acids
... Water is an excellent solvent and plays a critical role in determining the structure and stability of proteins. Despite the simplicity of its molecular structure, water shows very unusual properties. For example, water expands upon freezing transition and, in fact, expands even in the liquid form wh ...
... Water is an excellent solvent and plays a critical role in determining the structure and stability of proteins. Despite the simplicity of its molecular structure, water shows very unusual properties. For example, water expands upon freezing transition and, in fact, expands even in the liquid form wh ...
Carbon Chapter 5: The Large Biological Molecules
... What are the characteristics of carbon that make possible the building of such a wide variety of organic molecules? 1. Carbon has four valence electrons. It can form four different bonds with other carbon atoms or other atoms. 2. Carbon can form chains, branches, rings – a wide variety of shapes! 3 ...
... What are the characteristics of carbon that make possible the building of such a wide variety of organic molecules? 1. Carbon has four valence electrons. It can form four different bonds with other carbon atoms or other atoms. 2. Carbon can form chains, branches, rings – a wide variety of shapes! 3 ...
DHaganTalk1
... of the protein. • The secondary structure can be defined as the regular, repeated patters of folding of the protein backbone. The two most common folding patterns are the alpha helix and the beta sheet. • Patterns result from regular hydrogen bond patterns of ...
... of the protein. • The secondary structure can be defined as the regular, repeated patters of folding of the protein backbone. The two most common folding patterns are the alpha helix and the beta sheet. • Patterns result from regular hydrogen bond patterns of ...
From DNA to Protein: Transcription and Translation
... specific protein • An “army” of tRNA’s in each cell work to produce all the proteins needed in a cell by translating the mRNA (matching up the correct amino acid) ...
... specific protein • An “army” of tRNA’s in each cell work to produce all the proteins needed in a cell by translating the mRNA (matching up the correct amino acid) ...
CHAPTER 3 THE CHEMISTRY OF ORGANIC MOLECULES
... Lipids include a wide variety of compounds that are insoluble in water. Like carbohydrates, fats are also made of carbon, hydrogen, and oxygen, though not in the same fixed ratio. Fats and oils, also called triglycerides, allow long-term energy storage and are formed from the dehydration reaction be ...
... Lipids include a wide variety of compounds that are insoluble in water. Like carbohydrates, fats are also made of carbon, hydrogen, and oxygen, though not in the same fixed ratio. Fats and oils, also called triglycerides, allow long-term energy storage and are formed from the dehydration reaction be ...
Chapter 3
... • Secondary structure forms because regions of the polypeptide that are nonpolar are forced together; hydrogen bonds can form between different parts of the chain. • The folded structure may resemble coils, helices, ...
... • Secondary structure forms because regions of the polypeptide that are nonpolar are forced together; hydrogen bonds can form between different parts of the chain. • The folded structure may resemble coils, helices, ...
Primary Structure of Proteins
... A thyroid hormone that stimulates the release of thyroxin is a tripeptide with the amino acid sequence Glu–His–Pro, EHP. Although other amino acid sequences of these three amino acids are possible, only the specific sequence or primary structure of Glu−His−Pro produces hormonal activity. ...
... A thyroid hormone that stimulates the release of thyroxin is a tripeptide with the amino acid sequence Glu–His–Pro, EHP. Although other amino acid sequences of these three amino acids are possible, only the specific sequence or primary structure of Glu−His−Pro produces hormonal activity. ...
