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Acid Factory is one of the best new collection games and platform games our team is very happy that we have managed to add into the Miniclip Games category from our website, which we know is one of the best new categories that we have created for our website recently, so we have no doubt at all that you are going to be very happy with all of the games that you will manage to find here. We will now proceed to explain what you have to do in this one, so make sure you carefully read the next lines of the description! Collect the batteries to power up the portal, to get through it to the next level. Do not touch the acid, since it kills you, and also try your best to avoid the monsters as well. Pick up a gun and kill monster to score more points, with the more dangerous the monster is, the more points you are rewarded with. Try to get out of each level as quickly as possible, because the more air you save, the more points you get. Obviously, you are going to use the arrow keys to move around, and the space bar to use the gun if necessary. That's about it, so we want to wish you all good luck, in hopes you have a great time with this game!
Acid Factory is a brilliantly designed 2D game in which the layout is cleverly drawn out in 3D perspective. British developer and publisher, Miniclip, have created this platformer to get you thinking in both 2D and 3D. Your job is to guide the character Harry through the safe, acid-free platforms avoiding the zombies and also falling into the surrounding hazardous acid-flooded floors.
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As the story reveals through the hazy mist of confusion confounded by loss off memory, the audience is just shown the tip of the iceberg. Five men wake up inside the stolid confines of a factory to find themselves locked in this claustrophobic nowhere land. As the plot unfolds, we gradually learn that two of the people who are trapped have been kidnapped and held hostage by the rest of the three for a heist. But the irony is they themselves do not know who the hostages are and who the kidnappers are. The plot is like a Rubik cube that acquires the contours of solid colours on each side as the narrative unfolds. Their fears are heightened by a phone call from Kaiser(Irrfan), the leader of the gang, who informs them that he is on his way with the ransom money and plans to knock off the two hostages as soon as he arrives. Every one fears for their lives as they are unaware about the fact which two of them are the hostages. They plan to escape, fail and end lunging at each other in despair as the clock ticks away. Individual foibles and shortcomings surface in this final hour of despair. Like caged animals, they alternately bicker among themselves and then jointly plan means of escape but to no avail.
Meanwhile, Max(Dia) also recovers her memory and finds out she is Kaiser's girlfriend and that the other gang members are Om(Danny), Sultan(Manoj) and Romeo(Fardeen). Om also remembers everything. Just before Kaiser arrives in the factory, JD and Sultan also manage to remember everything, where it is revealed that JD and Sarthak were business partners and Sarthak was going to sell the company and JD wanted revenge hence the reason for Sarthak's kidnapping. It is also revealed that Kaiser does not like Romeo because he has an eye on Max.
The dreaded Kaiser gives Sarthak an opportunity to free himself by forcing him to kill JD. He then asks Sultan to kill Sarthak but makes an excuse to send Romeo to do the job. Romeo takes Sarthak outside to the balcony and fires in the air making the gang believe that Sarthak is dead. However, they figure that Romeo is in fact an undercover cop planted by the police and has not killed Sarthak. Eventually, there is a shootout in the factory where Sarthak finds 2 gas masks and gives one to Romeo. They fire at the pentane tank, causing an explosion similar to the one that caused everyone to lose their memory. This time, Romeo and Sarthak escape the factory to discover the cops waiting outside to arrest the gang. In the end, Romeo and Sarthak get back to their lives.
Acid factory got positive reviews from the critics and was declared a semi-hit. Taran Adarsh (Bollywood Hungama) gave 3/5 and Rediff.com gave it 2/5 stars while PlanetBollywood and Glamsham.com give it 9/10 and 4/5 stars respectively.[5][6]
Kojic acid (5-Hydroxy-2-(hydroxymethyl)-4-pyrone) is one of the major secondary metabolites in Aspergillus oryzae. It is widely used in food, pharmaceuticals, and cosmetics. The production cost, however, is too high for its use in many applications. Thus, an efficient and cost-effective kojic acid production process would be valuable. However, little is known about the complete set of genes for kojic acid production. Currently, kojic acid is produced from glucose. The efficient production of kojic acid using cellulose as an inexpensive substrate would help establish cost-effective kojic acid production.
A kojic acid transcription factor gene over-expressing the A. oryzae strain was constructed. Three genes related to kojic acid production in this strain were transcribed in higher amounts than those found in the wild-type strain. This strain produced 26.4 g/L kojic acid from 80 g/L glucose. Furthermore, this strain was transformed with plasmid harboring 3 cellulase genes. The resultant A. oryzae strain successfully produced 0.18 g/L of kojic acid in 6 days of fermentation from the phosphoric acid swollen cellulose.
Kojic acid was produced directly from cellulose material using genetically engineered A. oryzae. Because A. oryzae has efficient protein secretion ability and secondary metabolite productivity, an A. oryzae-based cell factory could be a platform for the production of various kinds of bio-based chemicals.
Kojic acid (5-Hydroxy-2-(hydroxymethyl)-4-pyrone) is widely used in the food industry, pharmaceutical industry, and in cosmetics[1, 2]. Furthermore, kojic acid is also used as a building block for biodegradable plastics[3, 4]. Plastics have phenolic hydroxyl groups that are derived from kojic acid. Thus, it has some unique properties. Futamura et al.[5] reported that the production cost of kojic acid is about $10/kg. It must be decreased to less than $2/kg before it could be used in many applications. Thus, an efficient and cost-effective kojic acid production process would be desirable.
Kojic acid is one of the major secondary metabolites in A. oryzae. In the 100 years since it was discovered, there has been no elucidation of the entire pathway of kojic acid biosynthesis in A. oryzae. Recently, some genes regarding the production of kojic acid in A. oryzae were reported[9]. According to the report, 14 genes from AO090113000132 to AO090113000145 including a transcription factor gene (kojR; AO090113000137), an enzyme gene (kojA, AO090113000136), and a transporter gene (kojT AO090113000138) form a cluster. These genes are engaged in kojic acid production. The kojR gene encodes a fungal-specific Zn(II)2Cy6 transcription factor that is located between kojA (upstream 743 bp) and kojT (downstream 383 bp). The kojR regulates the transcription of kojA and kojT. A strain with a disrupted transcription factor gene could not produce kojic acid at all[10]. Thus, kojR seems to be a key factor in kojic acid production.
The goal of the present study was to construct an A. oryzae-based cell factory for direct kojic acid production from cellulose. First, A. oryzae over-expressing the transcription factor gene kojR was constructed, and kojic acid production from glucose and starch by the resultant strain was carried out. Then, A. oryzae co-expressing the transcription factor and 3-types of cellulase genes was constructed. Finally, direct kojic acid production from cellulose by the resultant strain was carried out.
The BGL1 gene from A. aculeatus expressing plasmid pIS1-BGL1 was constructed as follows. The DNA fragment encoding the secretion signal from A. oryzae cutinase, the 28 amino acids from the N-terminal region of Rhizopus oryzae lipase, and the A. aculeatus BGL gene were amplified by PCR using the primers sCutL-F and sCutL-R, N28-F and N28-R, and BGL-F and BGL-R, respectively, from the genome DNA of A. oryzae, pISI-GFP[14], and pδU-PGAGBGL[15], respectively. These fragments were simultaneously inserted into the AscI/NotI site of the plasmid pISI using an In-Fusion HD Cloning Kit. The resultant plasmid was named pISI-BGL.
The transcription level of Kojic-acid-producing genes (kojR, kojA, kojT) was quantified by real-time PCR. Quantitative real-time PCR was performed using an Mx3005P Real-Time QPCR System (Agilent Technologies, Santa Clara, CA, USA) with a Thunderbird SYBR qPCR Mix (Toyobo). The normalized transcription level was calculated using the standard curve method with β-tubulin as the house-keeping gene[20]. All primers used for real-time PCR analysis are summarized in Table 2.
The kojic acid concentration was determined using a colorimetric method described previously[21]. The total sugar concentration was determined by a colorimetric phenol-sulfuric acid method described previously[22]. The glucose concentration was determined using a Wako Glucose CII-Test kit (Wako Pure Chemical Industries, Osaka, Japan). 2b1af7f3a8