1on1 Chess
ELEMENTARY
educational / sport
chess game
1+ years
Play the chessboard from both sides.
mirrored & regular chess pieces
chessboard
heatmap
grid trainer
1+ years
Play the chessboard from both sides.
mirrored & regular chess pieces
chessboard
heatmap
grid trainer
- With 1on1 Chess and the mirrored chess pieces you can play with your physical opponent on the phone / tablet.
Regularly the 2D representation of the chess pieces make it hard to play against the opponent sitting opposite you → 1on1 Chess has a solution.
Take your chessborad easily everywhere by mobile-device
info
app for phone / tablet
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download
SCREENSHOTS
YOU + your KID / FRIEND
play chess
opposite each other
on your mobile device
OPTIONS
I
chess pieces
CREATE
mRNA – transcribe the GENE
CONNECT complementray
NUCLEIC ACIDS to create a strand of
messengerRNA.
A messenger RNA is an
INVERSE COPY of the DNA.
A messenger RNA is an
INVERSE COPY of the DNA.
→ start the DNA-transcription / GENE→mRNA
mRNA – Messenger RNA is an inverse copy of a GENE .
The mRNA is created by reading a GENE found an the DNA strand.
This process is called transcription.
CUT out
non-codig sections from the mRNA
CONNECT the specific
NUCLEIC ACID sequences.
Use the SPLICEOSOME!
EXONS (coding) – are joined together & USED
INTRONS (non-coding) are REMOVED
NUCLEIC ACID sequences.
Use the SPLICEOSOME!
EXONS (coding) – are joined together & USED
INTRONS (non-coding) are REMOVED
→ remove the NON-CODING regions
Exons (coding) – are joined together
Introns (non-coding) – are removed
Introns (non-coding) – are removed
Whole sections will be cut out and the remaining pieces will we stiched back together.
The SPLICEOSOME is actually a whole bunch of proteins, that work together.
TRANSLATE
the mRNA to build a PROTEIN
I
TAKE the mRNA to the
RIBOSOMES.
RIBOSOMES translate the mRNA
into a chain of AMINO ACIDS.
TAKE the mRNA to the
RIBOSOMES.
RIBOSOMES translate the mRNA
into a chain of AMINO ACIDS.
II
FIND the right transfer RNA
to fit your mRNA sequence.
1 tRNA contains a set of 3 NUCLEIC ACIDS
1 tRNA ≙ 1 AMINO ACID.
FIND the right transfer RNA
to fit your mRNA sequence.
1 tRNA contains a set of 3 NUCLEIC ACIDS
1 tRNA ≙ 1 AMINO ACID.
→ translate the mRNA to build a PROTEIN
Proteins are produced by the ribosomes (which is in itself an assembly of many proteins).
Since proteins are made up of 20 different amino acids, three nucleic bases are needed to encode them all. These three bases are called the codon.
The mRNA is pulled through the ribosome. The ribosome then attaches a special kind of molecule called transfer RNA or tRNA to the mRNA. Each tRNA exposes a three bases long anti-codon.
Each tRNA also carries with it an amino acid, which matches the anti-codon.
Each tRNA also carries with it an amino acid, which matches the anti-codon.
The ribosome then takes each amino acid, and attaches them one after the other, while the mRNA is pulled through.
This is how the mRNA gets translated into a protein. Always three bases at a time.
DNA is located inside the nucleus, while the production of proteins is located outside the nucleus.
DNA is located inside the nucleus, while the production of proteins is located outside the nucleus.
Proteins are the building blocks of life.
Almost every process in our body involves proteins.
They act as enzymes, facilitators and antibodies.
Almost every process in our body involves proteins.
They act as enzymes, facilitators and antibodies.
my kid is an alien
"It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material."
James Watson, Francis Crick
James Watson, Francis Crick
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my Kid is an Alien