Biology 1B - Lecture 8: Shoots, Primary Structure 1
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- Duration: 45:56
- Published: 04 Feb 2011
- Uploaded: 12 Jul 2011
- Author: UCBerkeley
General Biology
Primary Structure
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Stanford University
The Leland Stanford Junior University, commonly referred to as Stanford University or Stanford, is a private research university located in Stanford, California, United States. The university is located on an campus in northwestern Santa Clara Valley approximately southeast of San Francisco and approximately northwest of San Jose.
http://wn.com/Stanford_University
- amino acid
- Base pair
- base stacking
- basepair
- Bessel function
- beta sheet
- biochemistry
- bioinformatics
- biomolecule
- biopolymer
- biotechnology
- CASP
- chromatin
- curvature
- dihedral angle
- DNA
- drug design
- DSSP (protein)
- enzymes
- evolution
- Fourier transform
- hairpin loop
- histone
- homology (biology)
- hydrogen bond
- lipid
- LSm
- macromolecule
- medicine
- molecular biology
- molecular model
- molecule
- monomer
- NMR spectroscopy
- Non-coding RNA
- NP-complete
- nucleic acid
- Nucleobase
- nucleotide
- nucleotide sequence
- Paracrystalline
- Patterson function
- peptide sequence
- polysaccharide
- primary structure
- protein
- protein folding
- protein structure
- pseudoknot
- Ramachandran plot
- ribosome
- RNA
- RNA polymerase III
- secondary structure
- Sequence motif
- snoRNA
- spliceosome
- Stanford University
- stem-loop
- stereochemistry
- structural biology
- tertiary structure
- tetraloop
- torsion
- Transfer RNA
- U1 spliceosomal RNA
- U2 spliceosomal RNA
- U4 spliceosomal RNA
- U5 spliceosomal RNA
- U6 spliceosomal RNA
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Biology 1B - Lecture 9: Shoots, Primary Structure 2
- Order: Reorder
- Duration: 46:56
- Published: 07 Feb 2011
- Uploaded: 20 Jul 2011
- Author: UCBerkeley
General Biology
Mrs. Neimeyer's .3 Primary structure of shoots
- Order: Reorder
- Duration: 3:48
- Published: 01 Jan 2010
- Uploaded: 23 Jul 2011
- Author: HeyNow1003
Apical meristems, lateral buds, stems, nodes
Biology 1B - Lecture 8: Shoots, Primary Structure
- Order: Reorder
- Duration: 48:21
- Published: 05 Feb 2010
- Uploaded: 20 Jul 2011
- Author: UCBerkeley
General Biology
Mrs. Neimeyer's 29. 5 Primary structure of roots
- Order: Reorder
- Duration: 5:06
- Published: 02 Jan 2010
- Uploaded: 02 Jun 2011
- Author: HeyNow1003
root cap, root hairs, lateral roots
Dioxyde - Primary Structures
- Order: Reorder
- Duration: 5:10
- Published: 18 Aug 2008
- Uploaded: 19 Jul 2011
- Author: ShadowDevotion
Artist: Dioxyde Song: Primary Structures Album: Torschlüsspanik
Essential amino acid primary-sec-tertiary STRUCTURE jun2010
- Order: Reorder
- Duration: 10:00
- Published: 18 Jun 2010
- Uploaded: 22 Apr 2011
- Author: CosmicRay137
The teriary structure is where the amino acids need God's touch! The primary structure is just the lining up order. The types of bonds that an AA can do is at the beginning. Secondary structure is either the alpha helix or beta-pleated sheet arrangements as it's strung along....adn the tertiary is the complex FOLDING. When a protein is denatured it's this (and the bonds like the disulfide bonds) that are disrupted and not able to resume the function of the enzyme (so a body temperature above the so called 104 Fareinheit can irreversibly damage the enzyme in the brain (for an adult on average)@ 8:35 is the lsit of ESSENTIAL AA's from the book...AA backbone balloon at the end
Protein Structure.mp4
- Order: Reorder
- Duration: 3:49
- Published: 30 Nov 2010
- Uploaded: 06 Jun 2011
- Author: igcsebiology
Again another video from www.igcsebiology.co.uk by Dr. Tarek. This is a brief explaination of how the proteins are structured. Ever baffled with what is the primary, secondary, tertiary or quaternary stucture of protien? Have it explained in less than 4 minutes! Trust me, that is extraordinary!
Biology: Primary and Secondary Structure
- Order: Reorder
- Duration: 3:00
- Published: 13 Sep 2010
- Uploaded: 24 Jan 2011
- Author: Mindbitesdotcom
www.mindbites.com for full video.
Protein Structure II
- Order: Reorder
- Duration: 57:58
- Published: 06 Oct 2010
- Uploaded: 09 Aug 2011
- Author: OregonStateUniv
This course is part of a series taught by Kevin Ahern at Oregon State University on General Biochemistry. For more information about online courses go to ecampus.oregonstate.edu 1. In predicting charge of a molecule, a reasonable approximation (note that this is an approximation) is that if the pH of a solution in which an ionizable group is located is below the pKa by one or more units, the proton is ON, whereas if the pH of the solution is one or more units above the pKa, the proton is off. 2. The sequence of amino acids in a protein is ultimately responsible for all of the properties a protein has. The sequence of amino acids of a protein is referred to as its primary structure. Peptide bonds form resonance structures such that the bond itself behaves like a double bond. Double bonds cannot rotate (unlike single bonds) and thus they define a plane. Alpha carbons on either side of a peptide bond are generally arranged in a trans configuration (about 10000 trans to one cis), except when proline is involved. Peptide bonds involving proline favor the trans by about a 100 to 1 ratio. 3. The bonds around the alpha carbon (the carbon bonded to both an amino group and a carboxy group) can both rotate, however, because they are single bonds. One can thus describe a polypeptide as a series of planes separated by an alpha carbon. If we think of the alpha carbon as being in between two planes, then the plane on the left can rotate (theoretically) 360 degrees and the plane on the <b>...</b>
Come Together
- Order: Reorder
- Duration: 3:38
- Published: 02 Nov 2007
- Uploaded: 02 Aug 2011
- Author: Anisamarie
In laboratory 4 we studied how enzyme activity is affected by environmental conditions. Enzymes permit cells to carry out the many functions that are required in a living system. Every enzyme has a specific substrate and a specific function. They change their substrate in one of two ways: either by dehydration synthesis (a monomer is added to another molecule) or hydrolysis (a monomer is removed from another molecule). Each enzyme has a unique conformation that enables them to perform their specialized tasks. The substrate molecule meets the enzyme at the active site, where the reaction takes place and the substrate is altered. The conformation of a particular enzyme depends on several levels of protein structure. First is sequence of amino acids or the primary structure. The attraction between these molecules is usually expressed as hydrogen bonds. The secondary structure is characterized by a unique sequence on hydrogen bonds between more distant molecules on the chain. In this lab we saw changes in the effectiveness of the enzymes when the secondary structure of the enzymes is altered. Tertiary and Quaternary structures describe successively larger parts of a protein, influenced by other electrostatic bonds. Enzymes possess an affinity for their substrate. We observed the enzyme catechol oxidase and how it is affected by temperature. Test tubes of catechol oxidase of various temperatures were inserted into a spectrometer to determine the amount of enzyme activity. The <b>...</b>
kit 3 lesson 1 Protein Folding.mov
- Order: Reorder
- Duration: 6:06
- Published: 18 May 2010
- Uploaded: 08 Mar 2011
- Author: ZOOMediaGroup
Kit 3: The versatility of this magnetic manipulative set enables you to demonstrate the four levels of protein folding in three-dimensions. Build an alpha helix on your chalkboard or whiteboard with the layers built in 3-D. This realistic representation clarifies any student misconceptions of protein folding. 3-D folded proteins can now be used to demonstrate the induced fit model, enzyme substrate complex, denatured proteins, active sites, allosteric sites, as well as competitive and non competitive inhibitors. The kit contents reveal how the same molecules are used repeatedly to build simple to complex structures in different biological processes. Partial assembly required. Includes a DVD with easy to follow instructions and video lessons. Kit 3, lesson 1 Protein Folding: Using the 82 amino acid polypeptide chain and the 25 purple amino acid polypeptide chain teachers can clearly demonstrate all levels of protein folding: primary structure, secondary structure (beta pleated sheet and alpha helix) , tertiary structure and quaternary structure. To purchase this kit, please visit www.virtmac.com.
Small Garden Waterfalls
- Order: Reorder
- Duration: 0:46
- Published: 22 Sep 2010
- Uploaded: 20 May 2011
- Author: JustMyGarden
A garden waterfall can make a beautiful and interesting addition to any garden, no matter how large or small. To work well and blend in naturally with the rest of your landscaping, a waterfall must be carefully planned. When planning your waterfall, you'll need to consider two primary structures--the pool in which the water will actually fall and the cascading structure that you use to create the waterfall itself. For a waterfall using stone that is larger than you can physically carry, we suggest you consider hiring a professional. For large waterfall projects, you should always hire a professional landscaping contractor to do the construction. But if you are a do-it-yourself kind of person and/or you want to save some money, a small waterfall is not that difficult to construct on your own when it's well planned. source: myidealgarden.com
Ла-7
- Order: Reorder
- Duration: 6:57
- Published: 15 Nov 2008
- Uploaded: 01 Aug 2011
- Author: login098hoywty
From designer Lavocnin have demanded to increase range of fighter La-5. The designer has decided cardinally to change an airplane design. "Duraluminium crisis" has ended in the USSR Therefore Lavocnin has decided to deliver a metal primary structure instead of the wooden. The facilitated airplane contained more fuel. Deterioration of flight performances were not Aerodynamics have improved a glider design. And airplane outlines became prompt and pure. New airplane La-7 has learnt. It reached speeds of 680 kilometres per hour. On this parametre it became the best airplane in the Second World War. The arms, a motor and a control system have not changed. But the control system should be reworked. On the sample of German airplanes. The automatic system is necessary. The German system was very convenient. It was possible to operate all parametres of the engine by means of one lever. Pilots La had to do to eight consecutive movements. In transient to fight it very much not udobno.La-7 was a little more religiously to errors in control than La-5. Especially on take-off and landing. So equipment layout was inconvenient. Defect of all airplanes of type La, bad ventilation remained and with the seven. The temperature in a cabin reached 50 degrees of Celsius. All it complicated hard cockpit work of a fighter. But on a complex of flight and fighting data, La-7 became one of the best a front fighter of the Second World War. The pilot felt as in a fortress. Speed, survivability, high <b>...</b>
NEW!!! iPhone 4 commercial (HD)
The iPhone 4 is the fourth generation of iPhone, and successor to the iPhone 3GS. Introduced on June 7, 2010 at the WWDC 2010 at the Moscone Center, San Francisco, It's the first device to support FaceTime, Apple's video calling application. It has an Apple A4 processor, 512 MB of eDRAM, a 3.5 inches (89 mm) LED backlit liquid crystal display with 960-by-640 pixel resolution, and the iOS 4 operating system. The iPhone 4 has all the features associated with an iPhone. The most noticeable difference is a new industrial design. The primary structure is a stainless steel frame, which additionally acts as both antennae. The internal components of the device are situated between two panels of chemically strengthened aluminosilicate glass. Additional changes include the Apple A4 processor, a high resolution display, marketed as Retina Display, and an embeded video conferencing application, FaceTime. Specifications: Operating system iOS 4.0 Released June 21, 2010; 3 days ago Power Built-in rechargeable li-ion battery 1420 mAh CPU Apple A4 ARM Cortex-A8[3] Storage capacity 16 GB or 32 GB flash memory Memory 512 MB eDRAM[4] Display LED backlit IPS LCD Retina display 3.5-inch (diagonal) widescreen 960-by-640-pixel resolution at 326 ppi 800:1 contrast ratio Input Multi-touch touchscreen display 3-axis gyroscope 3-axis accelerometer Magnetometer Proximity sensor Ambient light sensor Camera Rear 5 MP with geotagging HD video (720p) at 30 fps 1.75 μm size pixels 5× digital zoom LED <b>...</b>
Protein Structure and Function Part 1 of 8
Lecture by Kevin Ahern of Oregon State University discussing protein structure and function (primary, secondary, tertiary, and quaternary) in BB 350. This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu See the full course at oregonstate.edu Download Metabolic Melodies at www.davincipress.com
protein post translational modification
Posttranslational modification (PTM) is the chemical modification of a protein after its translation. It is one of the later steps in protein biosynthesis for many proteins. The bottom of this diagram shows the modification of primary structure of insulin, as described. A protein (also called a polypeptide) is a chain of amino acids. During protein synthesis, 20 different amino acids can be incorporated in proteins. After translation, the posttranslational modification of amino acids extends the range of functions of the protein by attaching to it other biochemical functional groups such as acetate, phosphate, various lipids and carbohydrates, by changing the chemical nature of an amino acid (eg citrullination) or by making structural changes, like the formation of disulfide bridges. Also, enzymes may remove amino acids from the amino end of the protein, or cut the peptide chain in the middle. For instance, the peptide hormone insulin is cut twice after disulfide bonds are formed, and a propeptide is removed from the middle of the chain; the resulting protein consists of two polypeptide chains connected by disulfide bonds. Also, most nascent polypeptides start with the amino acid methionine because the "start" codon on mRNA also codes for this amino acid. This amino acid is usually taken off during post-translational modification. Other modifications, like phosphorylation, are part of common mechanisms for controlling the behavior of a protein, for instance activating or <b>...</b>
Boeing 787 Dreamliner - The Newest Airplane from Boeing
Responding to the overwhelming preference of airlines around the world, Boeing Commercial Airplanes' new airplane is the Boeing 787 Dreamliner, a super-efficient airplane. An international team of top aerospace companies is developing the airplane, led by Boeing at its Everett facility near Seattle, Wash. ===UNPARALLELED PERFORMANCE=== The 787-8 Dreamliner will carry 210 - 250 passengers on routes of 7650 to 8200 nautical miles (14200 to 15200 kilometers), while the 787-9 Dreamliner will carry 250 - 290 passengers on routes of 8000 to 8500 nautical miles (14800 to 15750 kilometers). A third 787 family member, the 787-3 Dreamliner, will accommodate 290 - 330 passengers and be optimized for routes of 2500 to 3050 nautical miles (4600 to 5650 kilometers). In addition to bringing big-jet ranges to mid-size airplanes, the 787 will provide airlines with unmatched fuel efficiency, resulting in exceptional environmental performance. The airplane will use 20 percent less fuel for comparable missions than today's similarly sized airplane. It will also travel at speeds similar to today's fastest wide bodies, Mach 0.85. Airlines will enjoy more cargo revenue capacity. Passengers will also see improvements with the new airplane, from an interior environment with higher humidity to increased comfort and convenience. ===ADVANCED TECHNOLOGY=== The key to this exceptional performance is a suite of new technologies being developed by Boeing and its international technology development team <b>...</b>
iPhone 4 Review: Design
- Order: Reorder
- Duration: 6:07
- Published: 17 Aug 2010
- Uploaded: 02 May 2011
- Author: pizzafootbal
This is part one in my iPhone 4 review, thanks for watching! The iPhone 4 features a redesigned structure, designed by Jonathan Ive. Most notably, the bulges of the back panel as well as the band between the front and back are gone and have been replaced with flattened surfaces. The redesign reflects the utilitarianism and uniformity of existing Apple products, such as the iPad and the iMac. The only remnant of the previous generations of iPhone is the general layout of the device; the distinctive metal structure of the iPhone 4 is more reminiscent of the 3G and 3GS. The overall dimensions of the iPhone 4 have been reduced from its predecessor. It is 4.5 inches (110 mm) high, 2.31 inches (59 mm) wide, and 0.37 inches (9.4 mm) deep, compared to the iPhone 3GS, which is 4.55 inches (116 mm) high, 2.44 inches (62 mm) wide, and 0.48 inches (12 mm) deep; making the iPhone 4 24% thinner than its predecessor, the iPhone 3GS. Steve Jobs claims that it is "the thinnest smartphone on the planet".[29] The reduced size of the device is primarily due to the externally placed antenna. Steve Jobs, Apple CEO, holding a white iPhone 4. The iPhone 4 is structured around a stainless steel frame which both acts as the primary structure for the device, and additionally acts as the iPhone 4's antennae. The stainless steel enclosure features three slits that divide the band into three sections; the left section of band acts as the Bluetooth, Wi-Fi, and GPS antenna, and the right and lower bands <b>...</b>
AP Biology: Nucleic Acids and Proteins (DNA)
- Order: Reorder
- Duration: 1:31
- Published: 21 Oct 2010
- Uploaded: 16 Jun 2011
- Author: EducatorVids
Watch more free lectures and examples of AP Biology at www.educator.com Other subjects include Geometry, Algebra 1/2, Pre Calculus, Pre Algebra, Calculus, Statistics, Chemistry, Physics, and Computer Science. -All lectures are broken down by individual topics -No more wasted time -Just search and jump directly to the answer
Amino Acids Found In Space
- Order: Reorder
- Duration: 1:22
- Published: 08 Jan 2010
- Uploaded: 10 Aug 2011
- Author: FFreeThinker
Science & Reason on Facebook: tinyurl.com Does life exist elsewhere in the Universe? Perhaps. In August 2009, scientists announced the discovery of the amino acid, glycine, on the comet Wild 2. Amino acids provide key components for life here on Earth, but this is the first time we have definitive evidence of these molecules occurring in space. --- Please subscribe to Science & Reason: • www.youtube.com • www.youtube.com • www.youtube.com • www.youtube.com --- Amino acids are molecules containing an amine group, a carboxylic acid group and a side chain that varies between different amino acids. These molecules are particularly important in biochemistry, where this term refers to alpha-amino acids with the general formula H2NCHRCOOH, where R is an organic substituent. In the alpha amino acids, the amino and carboxylate groups are attached to the same carbon atom, which is called the αcarbon. The various alpha amino acids differ in which side chain (R group) is attached to their alpha carbon. These side chains can vary in size from just a hydrogen atom in glycine, to a methyl group in alanine, through to a large heterocyclic group in tryptophan. Amino acids are critical to life, and their most important function is their variety of roles in metabolism. One particularly important function is as the building blocks of proteins, which are linear chains of amino acids. Every protein is chemically defined by this primary structure, its unique sequence of amino acid residues <b>...</b>
Protein Structure and Function Part 6 of 8
Lecture by Kevin Ahern of Oregon State University discussing protein structure and function (primary, secondary, tertiary, and quaternary) in BB 350. This course can be taken for credit (wherever you live) via OSU's ecampus. For details, see ecampus.oregonstate.edu See the full course at oregonstate.edu Download Metabolic Melodies at www.davincipress.com
photo: Creative Commons
Crew and passengers on the wraparound deck of RMS Queen Mary 2, an ocean liner.
photo: NASA / Bricktop
The crew assigned to the STS-61B mission included (kneeling left to right) Bryan D. O'conner, pilot; and Brewster H. Shaw, commander.
photo: Creative Commons / Archaeodontosaurus
Boleite.
photo: U.S. Army/Spc. Brian Schroeder
Maj. Rob Menist, 1st Battalion, 41st Infantry Regiment executive officer, assists the headmistress at a western Baghdad primary school during a ribbon cutting ceremony held to welcome structural improvements to the newly renovated school.
photo: U.S. Army/Spc. Brian Schroeder
The headmistress at a western Baghdad primary school cuts a ribbon during the ceremony while Maj. Rob Menist, executive officer of the 1st Battalion, 41st Infantry Regiment, holds the ribbon. The ceremony was held to welcome structural improvements to
photo: U.S. Army/Spc. Brian Schroeder
The headmistress at a western Baghdad primary school cuts a ribbon during the ceremony while Maj. Rob Menist, executive officer of the 1st Battalion, 41st Infantry Regiment, holds the ribbon. The ceremony was held to welcome structural improvements to
photo: U.S. Army/Spc. Brian Schroeder
The headmistress at a western Baghdad primary school cuts a ribbon during the ceremony while Maj. Rob Menist, executive officer of the 1st Battalion, 41st Infantry Regiment, holds the ribbon. The ceremony was held to welcome structural improvements to
photo: Creative Commons / Billy Hathorn
The western side of the Jesus Trevino Rancho building in the San Ygnacio Historic District; note the structural similarity to Los Corralitos above
photo: Creative Commons
A scaffolding structure built around WISE allowed engineers to freeze its hydrogen coolant
photo: Creative Commons / JLogan
The Charlemagne building, the second largest building of the Commission housing its external relations departments. The most iconic structure is the Berlaymont, the primary seat of the Commission.
photo: Creative Commons
Detail of the Tarcrust's structure
photo: Creative Commons / Tobyw
Roman Watchtower in Germany a watchtower is a type of fortification used in many parts of the world. It differs from a regular tower in that its primary use is military, and from a turret in that it is usually a freestanding structure.
photo: Creative Commons / Lpangelrob
The DeKalb County Courthouse from the east side.
photo: Creative Commons / Swathi Sridharan (ICRISAT)
An MSc student at Kenyatta University in Nairobi.The current 8–4–4 system was launched in January 1985.
photo: Creative Commons / PRA
Hogan.
photo: US Navy / Mass Communication Specialist 3rd Class Daniel A. Barker
Aviation Structural Mechanic 1st Class Trevor Knowles displays the oil line wrench he invented.
photo: Creative Commons / Qfl247
A flute cast, a type of sole marking, from the Book Cliffs of Utah.
photo: Public Domain / Arpingstone
The Van's Aircraft RV-7 fuselage is slender for high speed flight
photo: Creative Commons / Moondigger
The galactic center in the direction of Sagittarius. The primary stars of Sagittarius are indicated in red. The galaxy consists of a bar-shaped core region surrounded by a disk of gas, dust and stars forming four distinct arm structures spiraling outward in a logarithmic spiral shape (see Spiral arms).
photo: Creative Commons / Qyd
Glenmore Reservoir
photo: Creative Commons / Dr. Meierhofer
Oracle.(甲骨文)
photo: Creative Commons / Qurren
The discharge of Takato Dam One of the best places for building a dam is a narrow part of a deep river valley; the valley sides can then act as natural walls.
photo: Creative Commons / Barcex
Romanèchite.
photo: GFDL / Noodle snacks
Dam,
![Students in Uganda.Illiteracy is common in Uganda, particularly among females.[36] Public spending on education was at 5.2 % of the 2002–2005 GDP.](http://web.archive.org./web/20110905062640im_/http://cdn2.wn.com/pd/87/f0/60a65493b1b3b5a2d4f5e09a6c79_grande.jpg "Students in Uganda.Illiteracy is common in Uganda, particularly among females.[36] Public spending on education was at 5.2 % of the 2002–2005 GDP.")
photo: Creative Commons / Kimberly Burns/USAID
Students in Uganda.Illiteracy is common in Uganda, particularly among females.[36] Public spending on education was at 5.2 % of the 2002–2005 GDP.
photo: Creative Commons / Paddy Briggs
The forecastle of the RMS Queen Elizabeth 2. A similar but usually much larger structure, called the aft castle, was at the after end of the ship, often stretching all the way from the main mast to the stern.
photo: Creative Commons / Bobak
Looking northwest from the southeast corner of Fort Atkinson in Fort Atkinson, Iowa, USA.
photo: Creative Commons / N yotarou
"Naikū, Ise Shrine" Ise Shrine is the formal home of Amaterasu ōmikami, the primary deity of Shinto and traditionally believed to be a direct ancestor of the Japanese Imperial Family. It is located in the city of Ise in Mie prefecture, Japan.
photo: Creative Commons / Magnus Manske
Platform supply vessel
photo: Creative Commons / Mareklug
Asphalt
![Students in Uganda.Illiteracy is common in Uganda, particularly among females.[36] Public spending on education was at 5.2 % of the 2002–2005 GDP.](http://web.archive.org./web/20110905062640im_/http://cdn1.wn.com/pd/87/f0/60a65493b1b3b5a2d4f5e09a6c79_thumb.jpg "Students in Uganda.Illiteracy is common in Uganda, particularly among females.[36] Public spending on education was at 5.2 % of the 2002–2005 GDP.")
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- Alpha helix
- amino acid
- Base pair
- base stacking
- basepair
- Bessel function
- beta sheet
- biochemistry
- bioinformatics
- biomolecule
- biopolymer
- biotechnology
- CASP
- chromatin
- curvature
- dihedral angle
- DNA
- drug design
- DSSP (protein)
- enzymes
- evolution
- Fourier transform
- hairpin loop
- histone
- homology (biology)
- hydrogen bond
- lipid
- LSm
- macromolecule
- medicine
- molecular biology
- molecular model
- molecule
- monomer
- NMR spectroscopy
- Non-coding RNA
- NP-complete
- nucleic acid
- Nucleobase
- nucleotide
- nucleotide sequence
- Paracrystalline
- Patterson function
- peptide sequence
- polysaccharide
- primary structure
- protein
- protein folding
- protein structure
- pseudoknot
- Ramachandran plot
- ribosome
- RNA
- RNA polymerase III
- secondary structure
- Sequence motif
- snoRNA
- spliceosome
- Stanford University
- stem-loop
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On an unseasonably warm San Francisco evening, the gents of Primary Structures convened at a gourmet hot dog joint, where veggie corn dogs go for $5.50, for some pre-practice grub. “I don’t know if you eat pork products,” a scruffy bassist Brian Caraway says as we wait to begin the interview, “but...
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Primezone
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Biomolecular structure
Biomolecular structure is the structure of biomolecules, mainly proteins and the nucleic acids DNA and RNA. The structure of these molecules is frequently decomposed into primary structure, secondary structure, tertiary structure, and quaternary structure. The scaffold for this structure is provided by secondary structural elements which are hydrogen bonds within the molecule. This leads to several recognizable "domains" of protein structure and nucleic acid structure, including secondary structure like hairpin loops, bulges and internal loops for nucleic acids, and alpha helices and beta sheets for proteins.
Non-coding RNA
List of RNA structure prediction software
List of nucleic acid simulation software
The terms primary, secondary, tertiary, and quaternary structure were first coined by Kaj Ulrik Linderstrøm-Lang in his 1951 Lane Medical Lectures at Stanford University.
Primary structure
In biochemistry, the Primary structure of a biological molecule is the exact specification of its atomic composition and the chemical bonds connecting those atoms (including stereochemistry). For a typical unbranched, un-crosslinked biopolymer (such as a molecule of DNA, RNA or typical intracellular protein), the primary structure is equivalent to specifying the sequence of its monomeric subunits, e.g., the nucleotide or peptide sequence.
Primary structure is sometimes mistakenly termed primary sequence, but there is no such term, as well as no parallel concept of secondary or tertiary sequence. By convention, the primary structure of a protein is reported starting from the amino-terminal (N) end to the carboxyl-terminal (C) end, while the primary structure of DNA or RNA molecule is reported from the 5' end to the 3' end.
The primary structure of a nucleic acid molecule refers to the exact sequence of nucleotides that comprise the whole molecule. Frequently the primary structure encodes motifs that are of functional importance. Some examples of sequence motifs are: the C/D and H/ACA boxes of snoRNAs, Sm binding site found in spliceosomal RNAs such as U1, U2, U4, U5, U6, U12 and U3, the Shine-Dalgarno sequence, the Kozak consensus sequence and the RNA polymerase III terminator.
Secondary structure
In biochemistry and structural biology, secondary structure is the general three-dimensional form of local segments of biopolymers such as proteins and nucleic acids (DNA/RNA). It does not, however, describe specific atomic positions in three-dimensional space, which are considered to be tertiary structure. Secondary structure is formally defined by the hydrogen bonds of the biopolymer, as observed in an atomic-resolution structure. In proteins, the secondary structure is defined by patterns of hydrogen bonds between backbone amide and carboxyl groups (sidechain-mainchain and sidechain-sidechain hydrogen bonds are irrelevant), where the DSSP definition of a hydrogen bond is used. In nucleic acids, the secondary structure is defined by the hydrogen bonding between the nitrogenous bases.
For proteins, however, the hydrogen bonding is correlated with other structural features, which has given rise to less formal definitions of secondary structure. For example, residues in protein helices generally adopt backbone dihedral angles in a particular region of the Ramachandran plot; thus, a segment of residues with such dihedral angles is often called a "helix", regardless of whether it has the correct hydrogen bonds. Many other less formal definitions have been proposed, often applying concepts from the differential geometry of curves, such as curvature and torsion. Least formally, structural biologists solving a new atomic-resolution structure will sometimes assign its secondary structure "by eye" and record their assignments in the corresponding PDB file.
The secondary structure of a nucleic acid molecule refers to the basepairing interactions within a single molecule or set of interacting molecules. The secondary structure of biological RNA's can often be uniquely decomposed into stems and loops. Frequently these elements, or combinations of them, can be further classified, for example, tetraloops, pseudoknots and stem-loops. There are many secondary structure elements of functional importance to biological RNA's; some famous examples are the Rho-independent terminator stem-loops and the tRNA cloverleaf. There is a minor industry of researchers attempting to determine the secondary structure of RNA molecules. Approaches include both experimental and computational methods (see also the List of RNA structure prediction software).
Tertiary structure
In biochemistry and molecular biology, the tertiary structure of a protein or any other macromolecule is its three-dimensional structure, as defined by the atomic coordinates. Proteins and nucleic acids are capable of diverse functions ranging from molecular recognition to catalysis. Such functions require a precise three-dimensional tertiary structure. While such structures are diverse and seemingly complex, they are composed of recurring, easily recognizable tertiary structure motifs that serve as molecular building blocks. Tertiary structure is considered to be largely determined by the biomolecule's primary structure, or the sequence of amino acids or nucleotides of which it is composed. Efforts to predict tertiary structure from the primary structure are known generally as structure prediction.
Quaternary structure
In biochemistry, quaternary structure is the arrangement of multiple folded protein or coiling protein molecules in a multi-subunit complex. For nucleic acids, the term is less common, but can refer to the higher-level organization of DNA in chromatin, including its interactions with histones, or to the interactions between separate RNA units in the ribosome or spliceosome.
Structure determination
Structure probing is the process by which biochemical techniques are used to determine biomolecular structure. This analysis can be used to define the patterns which can infer the molecular structure, experimental analysis of molecular structure and function, and further understanding on development of smaller molecules for further biological research. Structure probing analysis can be done through many different methods, which include chemical probing, hydroxyl radical probing, nucleotide analog interference mapping (NAIM), and in-line probing.
DNA structures can be determined using either nuclear magnetic resonance spectroscopy or X-ray crystallography. The first published reports of A-DNA X-ray diffraction patterns-- and also B-DNA—employed analyses based on Patterson transforms that provided only a limited amount of structural information for oriented fibers of DNA isolated from calf thymus. An alternate analysis was then proposed by Wilkins et al. in 1953 for B-DNA X-ray diffraction/scattering patterns of hydrated, bacterial oriented DNA fibers and trout sperm heads in terms of squares of Bessel functions. Although the `B-DNA form' is most common under the conditions found in cells, it is not a well-defined conformation but a family or fuzzy set of DNA-conformations that occur at the high hydration levels present in a wide variety of living cells. Their corresponding X-ray diffraction & scattering patterns are characteristic of molecular paracrystals with a significant degree of disorder (>20%), and concomitantly the structure is not tractable using only the standard analysis.
On the other hand, the standard analysis, involving only Fourier transforms of Bessel functions and DNA molecular models, is still routinely employed for the analysis of A-DNA and Z-DNA X-ray diffraction patterns.
Structure prediction
Biomolecular structure prediction is the prediction of the three-dimensional structure of a protein from its amino acid sequence, or of a nucleic acid from its base sequence. In other words, it is the prediction of secondary and tertiary structure from its primary structure. Structure prediction is the inverse of biomolecular design.
Protein structure prediction is one of the most important goals pursued by bioinformatics and theoretical chemistry. Protein structure prediction is of high importance in medicine (for example, in drug design) and biotechnology (for example, in the design of novel enzymes). Every two years, the performance of current methods is assessed in the CASP experiment.
There has also been a significant amount of bioinformatics research directed at the RNA structure prediction problem. A common problem for researchers working with RNA is to determine the three-dimensional structure of the molecule given just the nucleic acid sequence. However, in the case of RNA much of the final structure is determined by the secondary structure or intra-molecular base-pairing interactions of the molecule. This is shown by the high conservation of base-pairings across diverse species.
Secondary structure of small nucleic acid molecules is largely determined by strong, local interactions such as hydrogen bonds and base stacking. Summing the free energy for such interactions, usually using a nearest-neighbor model, provides an approximation for the stability of given structure. The most straighforward way to find the lowest free energy structure would be to generate all possible structures and calculate the free energy for it, but the number of possible structures for a sequence increases exponentially with the length of the nucleic acid. For longer molecules, the number of possible secondary structures is enormous.
Design
Biomolecular design can be considered the inverse of structure prediction. In structure prediction, the structure is determined from a known sequence, while in nucleic acid design, a sequence is generated which will form a desired structure.
Other biomolecules
Other biomolecules, such as polysaccharides and lipids, can also have higher-order structure of biological consequence.
See also
References
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