Normvorlage
... optical principles are considerably more applied in these fields. In order to mimic the active sites of antibodies or enzymes by synthetic mimics socalled „molecularly imprinted polymers”(MIPs) have been developed. Functional monomers are polymerised in the presence of the target analyte and after p ...
... optical principles are considerably more applied in these fields. In order to mimic the active sites of antibodies or enzymes by synthetic mimics socalled „molecularly imprinted polymers”(MIPs) have been developed. Functional monomers are polymerised in the presence of the target analyte and after p ...
Chapter05, 06 代谢引论糖代谢
... Rationale for this enzyme - repositions the phosphate to make PEP Note the phospho-histidine intermediates! Zelda Rose showed that a bit of 2,3-BPG is required to phosphorylate His Rx 9: Enolase 2-P-Gly to PEP How can such a reaction create a PEP? "Energy content" of 2-PG and PEP are similar Enolase ...
... Rationale for this enzyme - repositions the phosphate to make PEP Note the phospho-histidine intermediates! Zelda Rose showed that a bit of 2,3-BPG is required to phosphorylate His Rx 9: Enolase 2-P-Gly to PEP How can such a reaction create a PEP? "Energy content" of 2-PG and PEP are similar Enolase ...
Polysaccharides
... • Highly branched amylose in which the branches are attached to the C-6 hydroxyl groups (see Figure 17.12 on pg. 513) • Each branch contains 20-25 glucose units ...
... • Highly branched amylose in which the branches are attached to the C-6 hydroxyl groups (see Figure 17.12 on pg. 513) • Each branch contains 20-25 glucose units ...
BIO STUDY GUIDE - Biochemistry and Cells
... 27. What types of things could alter the function of a protein molecule? 28. Review the chemistry quiz … you may see these types of questions again! (know how to use the periodic table). 29. balance equations (simple … matter can not be created or destroyed but it may be rearranged). 30. How many di ...
... 27. What types of things could alter the function of a protein molecule? 28. Review the chemistry quiz … you may see these types of questions again! (know how to use the periodic table). 29. balance equations (simple … matter can not be created or destroyed but it may be rearranged). 30. How many di ...
How do cells communicate?
... • Many signal molecules increase cytosolic concentration of Ca2+ – contraction of muscle cells, secretion of substances, and cell division – In plant cells, trigger responses for coping with ...
... • Many signal molecules increase cytosolic concentration of Ca2+ – contraction of muscle cells, secretion of substances, and cell division – In plant cells, trigger responses for coping with ...
POGIL “Cellular Communication” KEY
... 14. One signal can lead to a large cellular response. 15. There would be continual phosphorylation, and a continued cellular response, whatever it may be. 16. The initial relay protein needs to be deactivated, the phosphate needs to be removed form the kinases ...
... 14. One signal can lead to a large cellular response. 15. There would be continual phosphorylation, and a continued cellular response, whatever it may be. 16. The initial relay protein needs to be deactivated, the phosphate needs to be removed form the kinases ...
Course Specifications General Information
... 1 - The objective of this course is to know the metabolic pathways of different food stuffs 2 - To know different biochemical reactions taking place in our bodies catalysed by enzymes and how metabolic disorder of some pathways lead to diseases ...
... 1 - The objective of this course is to know the metabolic pathways of different food stuffs 2 - To know different biochemical reactions taking place in our bodies catalysed by enzymes and how metabolic disorder of some pathways lead to diseases ...
Respiration Eq. for reaction: C6H12O6 + 6O2 ------
... Oxygen (O2): product of photosynthesis that is required to oxidize glucose in respiration Carbon dioxide (CO2): waste product from the Krebs cycle stage of respiration Water (H2O): produced at the end of the electron transport chain in oxidative phosphorylation, where O2 is an e- and H+ acceptor. Ma ...
... Oxygen (O2): product of photosynthesis that is required to oxidize glucose in respiration Carbon dioxide (CO2): waste product from the Krebs cycle stage of respiration Water (H2O): produced at the end of the electron transport chain in oxidative phosphorylation, where O2 is an e- and H+ acceptor. Ma ...
02-3 Carbon Compounds
... 3. Tertiary Structure (folded helixes, sheets) 4. Quartenary Structure (2 or more polypeptides together) ...
... 3. Tertiary Structure (folded helixes, sheets) 4. Quartenary Structure (2 or more polypeptides together) ...
Metabolism of the whole organism
... • uses keto acids for fuel • Kidney: needs energy for active transport • uses FA, KB, glucose, amino acids, • gluneogenic tissue ...
... • uses keto acids for fuel • Kidney: needs energy for active transport • uses FA, KB, glucose, amino acids, • gluneogenic tissue ...
intracellular protein synthesis, post
... Alfred L. G o l d b u . Dept. of Cell Biology, Harvard Medical School, Boston, MA 02115, U.S.A. ...
... Alfred L. G o l d b u . Dept. of Cell Biology, Harvard Medical School, Boston, MA 02115, U.S.A. ...
Chapter 9_ objectives
... Name the three stages of cellular respiration and state the region of the eukaryotic cell where each stage occurs. ...
... Name the three stages of cellular respiration and state the region of the eukaryotic cell where each stage occurs. ...
Final Review
... 61. Compare and contrast transcription and translation. Transcription: the process in which information encoded in a DNA molecule is copied into an mRNA molecule Translation: the process in which information encoded in an mRNA molecule is used to assemble a specific protein They are both involve in ...
... 61. Compare and contrast transcription and translation. Transcription: the process in which information encoded in a DNA molecule is copied into an mRNA molecule Translation: the process in which information encoded in an mRNA molecule is used to assemble a specific protein They are both involve in ...
Chem 2B
... 61. Compare and contrast transcription and translation. Transcription: the process in which information encoded in a DNA molecule is copied into an mRNA molecule Translation: the process in which information encoded in an mRNA molecule is used to assemble a specific protein They are both involve in ...
... 61. Compare and contrast transcription and translation. Transcription: the process in which information encoded in a DNA molecule is copied into an mRNA molecule Translation: the process in which information encoded in an mRNA molecule is used to assemble a specific protein They are both involve in ...
Chapter 1 Homework - due Tuesday, Sept
... c) c) ATP synthase complex – as hydrogen ions pass through the synthases, the production of ATP from ADP and Pi is catalyzed, and oxygen is reduced, forming water 4. What are the roles of NAD+ and FAD in aerobic respiration? NAD+ and FAD receive electrons at varying steps during glycolysis (NAD+ onl ...
... c) c) ATP synthase complex – as hydrogen ions pass through the synthases, the production of ATP from ADP and Pi is catalyzed, and oxygen is reduced, forming water 4. What are the roles of NAD+ and FAD in aerobic respiration? NAD+ and FAD receive electrons at varying steps during glycolysis (NAD+ onl ...
2081 Slc35a2 provides a novel role for glycosylation in glucose
... cell ATP were all reversed by re-expression of Slc35a2 in Lec8 cells. Furthermore, treatment with the hexokinase inhibitor, 2-deoxyglucose led to a more significant reduction in whole cell ATP content in wild-type compared with Lec8 cells. Taken together, our data indicate that Slc35a2 modulates the ...
... cell ATP were all reversed by re-expression of Slc35a2 in Lec8 cells. Furthermore, treatment with the hexokinase inhibitor, 2-deoxyglucose led to a more significant reduction in whole cell ATP content in wild-type compared with Lec8 cells. Taken together, our data indicate that Slc35a2 modulates the ...
TAKE HOME TEST A
... CH3CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2COCH2CHOCCH2(CH2)12(CH2CH=CH)3CH3 OH ...
... CH3CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2CH2COCH2CHOCCH2(CH2)12(CH2CH=CH)3CH3 OH ...
Midterm Exam Key
... a. hexokinase has higher affinity for galactose than glucose b. hexokinase has a higher affinity for glucose than galactose c. the concentration of glucose in the cell is likely to be approximately 1nM d. the Vmax is the same for both glucose and galactose ...
... a. hexokinase has higher affinity for galactose than glucose b. hexokinase has a higher affinity for glucose than galactose c. the concentration of glucose in the cell is likely to be approximately 1nM d. the Vmax is the same for both glucose and galactose ...
Protein
... Protein Foods high in protein are Animal products, nuts, lentils, soy, dairy, cheese ...
... Protein Foods high in protein are Animal products, nuts, lentils, soy, dairy, cheese ...
Organic
... • For each peptide bond formed, a water molecule is lost thru dehydration synthesis. • How that polypeptide folds and takes on a 3-D shape is determined by its R groups and how they interact w/ each other. ...
... • For each peptide bond formed, a water molecule is lost thru dehydration synthesis. • How that polypeptide folds and takes on a 3-D shape is determined by its R groups and how they interact w/ each other. ...
Unit 3: Chemistry of Life
... amino (NH2) group of one amino acid and the carboxylic group (COOH) of another >Dipeptide – two amino acids bonded together >Polypeptide – 3+ amino acids bonded together ...
... amino (NH2) group of one amino acid and the carboxylic group (COOH) of another >Dipeptide – two amino acids bonded together >Polypeptide – 3+ amino acids bonded together ...
Introduction to the study of cell biology
... (2) ATP synthase: Makes ATP in the matrix; (3) Transport proteins: Allow the passage of metabolites ...
... (2) ATP synthase: Makes ATP in the matrix; (3) Transport proteins: Allow the passage of metabolites ...
Phosphorylation
Phosphorylation is the addition of a phosphate (PO43−) group to a protein or other organic molecule. Phosphorylation and its counterpart, dephosphorylation, turn many protein enzymes on and off, thereby altering their function and activity. Protein phosphorylation is one type of post-translational modification.Protein phosphorylation in particular plays a significant role in a wide range of cellular processes. Its prominent role in biochemistry is the subject of a very large body of research (as of March 2015, the Medline database returns over 240,000 articles on the subject, largely on protein phosphorylation).