Some challenges are hard :). Here we can discuss their solutions. Please find the thread for the appropriate challenge or create it if it doesn't exist.
Description: Most plants in the legume family live in symbiosis with nitrogen fixating bacteria called rhizobia living in their root systems. The bacteria provides nitrogen to the plants while the plants provide nutrients to the bacteria.
On this substrate we have a couple of very tiny plants of the legume family. Unfortunately their rhizobia was killed by a virus and the plants as a result have stopped growing due to lack of nitrogen.
Can you design some new organisms to take the role of the rhizobia?
Win Conditions: 38 or more challenge cells with 1 cell inserted
Hint: Glueocytes can help transfer nutrients between different species
Ive tryed multiple things to do this challenge But yet everything i try fails so i need help on this,
Post anything that got the challenge complete. And i will try it
A simple cell that splits to glueocyte and nitrocyte is enough to help one stem to grow.
But you can only place one cell. The real challenge is to reach both stems from one cell.
There are 2 ways to reach the other stem:
1. Make a cell that grows a "rod" that extends far enough to reach the second stem, or
2. Make a cell that grows a swimmer that swims to the second stem.
The first one is harder. You have to make sure the rod doesn't buckle under pressure. Put the adhesin strength and length to max.
The second one is easier. Once the cell got enough energy from the stem, grow a Glueocyte-Flagellocyte swimmer. The glueocyte hooks to another stem, then grows another nitrocyte.
It's very simple to me. M1 and M2 must be kleycocyte. Then make them connected with adhesin. After the kleycocyte you must make a "rope" using nitrocytes. And at the other end of the "rope" you must make another kleycocyte. In the result you get a something that sorta look like a rope out of nitrocytes but at the beach rope ends you see the kleycocyte. Dont forget that the split mass of all cells must be 1.53 this is the solution
RealOfficialTurf wrote: ↑Fri Jun 14, 2019 12:53 pm
A simple cell that splits to glueocyte and nitrocyte is enough to help one stem to grow.
But you can only place one cell. The real challenge is to reach both stems from one cell.
There are 2 ways to reach the other stem:
1. Make a cell that grows a "rod" that extends far enough to reach the second stem, or
2. Make a cell that grows a swimmer that swims to the second stem.
The first one is harder. You have to make sure the rod doesn't buckle under pressure. Put the adhesin strength and length to max.
The second one is easier. Once the cell got enough energy from the stem, grow a Glueocyte-Flagellocyte swimmer. The glueocyte hooks to another stem, then grows another nitrocyte.
Ooooh I didn't realised it! Thanks! My rod always buckle and my swimmer always run out of energy even if I set the split ratio to 10 : 90.
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