Tn 4351 was originally isolated from bacteroides fragilis [30] . The transposon was successfully introduced into Cytophaga succinicans, Flavobacterium meningosepticum, Flexibacter canadiansis, Flexibacter strain SFI and Sporocytophaga myxococcoides by conjugation [25]. Tn 4351carries two antibiotic resistance gene. One of the codes for resistance to erythromycin and clindamycin which is expressed in bactroides but not in E.Coli. The other gene codes for resistance in tetracycline and is expressed in aerobically grpwn E. coli, but not in anaerobically grpwn E. coli or in bacteroides.
The Gastrocnemius Muscle of Rana pipiens is an Appropriate Model for Skeletal Muscle Contractile Kinetics When Compared to Peer-Reviewed Models Georgia Institute of Technology BMED 3110: Quantitative Engineering Physiology Laboratory I Section B: Team Baboons 16 November 2014 ABSTRACT The dynamics of skeletal muscle kinetics can be quantified using various experimental methods involving stimulated muscle contractions.
The purpose of this experiment was to learn about metal hydride reduction reactions. Therefore, the sodium borohydride reduction of the ketone, 9-fluorenone was performed to yield the secondary alcohol, 9-fluorenol. Reduction of an organic molecule usually corresponds to decreasing its oxygen content or increasing its hydrogen content. In order to achieve such a chemical change, sodium borohydride (NaBH4) is used as a reducing agent. There are other metal hydrides used in the reduction of carbonyl groups such as lithium aluminum hydride (LiAlH4).
Discussion 1. Zn0 (s)+ Cu2+S6+O42-(aq) →Cu0(s) + Zn2+S6+O42-(aq) Zn0(s) → Zn2+(aq) + 2e- Cu2+(aq) + 2e- → Cu0(s) Zn0(s) + Cu2+(aq) → Zn2+(aq) + Cu0(s) Oxidant (oxidizing agent) is the element which reduces in experiment.
%% Init % clear all; close all; Fs = 4e3; Time = 40; NumSamp = Time * Fs; load Hd; x1 = 3.5*ecg(2700). ' ; % gen synth ECG signal y1 = sgolayfilt(kron(ones(1,ceil(NumSamp/2700)+1),x1),0,21); % repeat for NumSamp length and smooth n = 1:Time*Fs '; del = round(2700*rand(1)); % pick a random offset mhb = y1(n + del) '; %construct the ecg signal from some offset t = 1/
1. Identify the range of senses involved in communication • Sight (visual communication), Touch (tactile communication), Taste, Hearing (auditory communication), Smell (olfactory communication) 2. Identify the limited range of wavelengths and named parts of the electromagnetic spectrum detected by humans and compare this range with those of THREE other named vertebrates and TWO named invertebrates. Figure 1: the electromagnetic spectrum source: www.ces.fau.edu Vertebrates Human Japanese Dace Fish Rattlesnake Zebra Finch Part of electromagnetic spectrum detected ROYGBV (visible light) detected by light sensitive cells in the eye called rods and cones.
Suppose you need to find the fractional European call and the fractional European put options. Let the Hurst parameter be $H=0.85$, the $\sigma=0,25$, $r=0.10$, $S_{fbm} = 100$, $K = 95$, we have \begin{eqnarray*} d_1^{fBm} & = & \frac{\ln{\frac{S}{K}} + \frac{1}{2}(r( T - t) + \frac{(1)\sigma^2{( T^{2H} - t^{2H})}}{2})}{\sigma{\sqrt{T^{2H} - t^{2H}}}}\\ & = & \frac{\ln(\frac{105}{100}) + (0.10(0.25 -0) + \frac{(1){0.25^2}{0.25^{2(0.85)} - (1)0.25^{2(0.85)}}}{2}}{(0.25){\sqrt{0.25^{2(0.85)} - 0}})} \end{eqnarray*} we obtain $d^{fBm}_1= 1.0558$. We find in the normal distribution that $N(1.0558)= 0.8544$ and $N(-1.0558) = 0.1456.$
Atomic weight = mass of protons + mass of neutrons. Question # 1: Part C Calculate the density of vanadium. The structure is BCC.
In this week’s lab we had to determine the density of a quarter, penny, and dime. My question was “How does is each coin?” Density is the amount of mass in an object. To find the density of each coin in this lab, we used a triple beam balance to find each coin’s mass and a graduated cylinder to find their volumes. With all this information, I can now form a hypothesis.
Unknown Lab Report Unknown # 25 By: Jenna Riordan March 19, 2018 Bio 2843 1. Introduction Microbiology is the study of microorganisms found in all different environments throughout Earth, from the hot thermal vents at the bottom of the ocean to the ice at the top of a mountain.
El laberinto del fauno (2006) is a fantasy film written and directed by Guillermo Del Toro in 2006. It is set in 1944 Francoist Spain where Ofelia (Ivana Baquero) and her pregnant mother move in with the Falangist Captain Vidal; Ofelia’s new stepfather and soon to be father of her half-brother. This essay will seek to explore how the film’s violence is meticulously portrayed as a masculine trait. It could be argued, that because violence is depicted as a masculine attribute, the main character that conveys and reinforces this concept is Captain Vidal (Sergi López). However, characters such as Carmen (Ariadna Gil) further reinstate this feature by complying and being ‘domesticated’.
This method, not only allows to calculate the average, but also assures that the data is close to the actual value. After these sets of procedures were conducted, the unknown metal sample was identified. The unknown substance had an average density of 7.64 g/ml, which was close to the density of Tin with 7.3 g/ml as its density. The possible explanation for the differences in their values can be due to experimental errors. One of the main experimental errors that contribute to this would be, that the pennies might not be completely
Amedeo Avogadro did not discover or name "Avogadro 's number". He did however play a major role into the discovery of that number. In 1811 he proposed the hypothesis that the "equal volumes of gases at the same temperature and pressure contain the same number of molecules regardless of their chemical nature and physical properties". Many scientists after that used his hypothesis to try and calculate the number of molecules in a mole, Josef Loschmidt being one of those scientists. Josef Loschmidt greatly contributed towards the discovery of Avogadro 's number by being the first scientist to come up with a number, although it wasn 't 100% correct.
Lastly, add the molar masses of each element in the compound. 3. Explain
INTRODUCTION: Arginase is an enzyme- enzymes are biological catalyst which drives a reaction at the speed of life. Arginase is a hydrolase, hydrolases catalyze hydrolysis reactions, this is determined via the E.C number (Nelson and Cox 2008). Arginase has the EC number is 3.5.3.1 (Schomburg 2015). The enzyme ‘commission number’ is the arithmetical classification that is used for enzymes which indicates the chemical reaction they catalyze.
