|
|
| Line 4: |
Line 4: |
| | '''Flax Genomes''' | | '''Flax Genomes''' |
| | | | |
| − | 1 2
| + | 1 2 |
| − | 123456789012345678901234567 Nile Green | + | 123456789012345678901234567 Nile Green |
| − | ORGRGYGYGYGRGYORYYRGROYYORR | + | ORGRGYGYGYGRGYORYYRGROYYORR |
| | | | |
| | 1 2 3 | | 1 2 3 |
| Line 140: |
Line 140: |
| | | | |
| | </tt> | | </tt> |
| − | =Flax Solvent data=
| |
| − |
| |
| − | '''Ariella#5 NG/OE''' 3 0 1 2 1 (Cross #17-20 3 flax genes on left)
| |
| − | *expected length 32-34
| |
| − | *ORGR OYGR RRRG GYRK YGYG RYRR ROYG RRGG RRYO GYOR YOOY YGRR RGRG GYGY RGYG RGGR KORG YRRR YGYO
| |
| − | *genome: '''KORGRGYGYGY|G|YORYRRRGGROYGRRYOOYGYRK''', length 33
| |
| − |
| |
| − | Default 5 weeds - 2 weeds(2 OR) and -2 weeds(3 Flax or twice GYGYGY)<br>
| |
| − | Default -1 water +3 water(3 Flax) or possible default 0 + 2GYGYGY<br>
| |
| − | GYGYGYGY = 3 flax
| |
| − |
| |
| − | '''Ariella#8 OE/NG''' 2 1 1 2 0 (Cross #17-20 rotten genes on right)
| |
| − | *expected length 32-34
| |
| − | *RYYO OYYO RRGY GYOR 2YYRG 2GYGY ORRK RGYO ORYY '''ORRG''' RGYG KRYY YOGY 2GRGY OGYG
| |
| − | *genome: KRYYOGYGYO|R|R|GYGYGYGRGYORYYRGROYYORRK, length 34 (R added) (if old theory is correct, this would be 3 flax, so the shortened genome is probably the right one)
| |
| − | *or genome: '''KRYYOGYGYORR|GYGYGRGYORYYRGROYYORRK''', length 32 (gene dropped)
| |
| − | *other combos would be too long or too short (presuming baby is average length with gene added or dropped)
| |
| − | *flax: 2(GYGY)
| |
| − | *rotten flax: 1(RRGY)
| |
| − | *seeds: 1(RO)
| |
| − | *weeds: 5(default) - 3(OR) - 1(2 flax - 1) = 1 '''BUT WE HAVE 2'''
| |
| − | **we might conclude: weeds is not dimished by (# flax -1) but by (# of GYGYGY strings) resulting in 5 - 3 - 0 = 2
| |
| − | *water: -1(default) + 2(flax) - 0(ROGY) = 1 '''BUT WE HAVE 0'''
| |
| − | **we might conclude: hard to tell yet, could be add of(# of GYGYGY strings) so that GYGYGY converts a weed to water resulting in -1 + 0 = -1 thus 0; also would explain why high flax producers still can have 0 water like seen in Tale 3; would put the ROGY which was uncertain still in big doubt
| |
| − |
| |
| − |
| |
| − | '''Tedra #297''' 4 3 6 1 0 Flax/Rotten/Seeds/Weed/Water
| |
| − |
| |
| − | 7GYRR 5YGYY ROGY 5GYGY 6YROK 4OROY RRRG 3YRRG OROR YORR 2GYOR 2ROYR 4RORO 2RGYG 3RRGY YRRR OROO 4YGYR ORRG 2KRRO YGYG 2GYYG 3OORO 3OGYG 2RGYR 2YGYO RROG
| |
| − | Need ROO?(probably R) OYR?(probably O or R ?YRO(probably G or O) ?OOR(probably R) YYG?(expecting Y)
| |
| − | *genome: KRROGYGY G|R|Y ... RG|YG|RO YROK
| |
| − | R|Y GYRR G|R
| |
| − | O|R|Y GYGYYG YY|YR|YG|YO
| |
| − | O|R OROYR OK|RG|RR
| |
| − | R|Y GYRRRGY G|R
| |
| − | O|R ORORO O|R|Y
| |
| − | O|R|Y GYGYORRGY G|R
| |
| − | O|R|Y RRGYGY G|R|Y
| |
| − | O|R OROO RO O|R|Y
| |
| − | O|R OR OORO O|R|Y
| |
| − | O|Y|R GYGYRR G|R
| |
| − | O|R|Y GYGYGY G|R|Y
| |
| − |
| |
| − |
| |
| − |
| |
| − | RGYG
| |
| − | GYGY
| |
| − | YGYG
| |
| − | KRRO GYGY
| |
| − | RROG RGYR YGYR
| |
| − | ROGY YRRR GYRR
| |
| − | OGYG RRRG YRRG OROO
| |
| − | GYGY
| |
| − | YGYO RRGY RRGY OORO
| |
| − | GYOR YGYY OROR
| |
| − | YORR GYYG RORO
| |
| − | ORRG OROY
| |
| − | RRGY ROYR
| |
| − | RGYG or RGYR YROK
| |
| − |
| |
| − | *the OK at end indicates there has been a full left part taken once in ascendents, since NE and NG do not have OK at end, unless 2 genes of NG were dropped in history (a conclusion that helps us no further)
| |
| − | *we expect: 4 GYGY, 3 RRGY, 6 RO (4 RO's certain from tests), 4 OR (3 OR's certain from tests) and/or GYGYGY, max 1 GYGYGY (unless ROGY diminishes water)
| |
| − |
| |
| − | '''Tedra #253''' 5 2 6 0 1 Flax/Rotten/Seeds/Weed/Water
| |
| − |
| |
| − | 2OROR 2YGYG ORRG RRRR GYOR 4GYGY RRGY 2RORO 2GYYG KRRO ROGY RRRO YGYY
| |
| − | *genome: KRRO... (impossible to make a prediction with these data, probably need longer strings)
| |
| − | OROR
| |
| − | YGYG
| |
| − | ORRG
| |
| − | RRRR
| |
| − | GYOR
| |
| − | GYGY
| |
| − | RRGY
| |
| − | RORO
| |
| − | GYYG
| |
| − | KRRO
| |
| − | ROGY
| |
| − | RRRO
| |
| − | YGYY
| |
| − | *we expect: 5 GYGY, 2 RRGY, 6 RO (4 RO's certain from tests), at least 5 OR (3 OR's certain from tests) and/or GYGYGY, minimum 2 GYGYGY (unless ROGY diminishes water)
| |
| − |
| |
| − | '''Tedra #246''' 3 3 7 1 0
| |
| − |
| |
| − | ORRG 3YORR 2ORRG RGYR RGYG OROY YRRG 4RORO RROG RRGY YGYR KRRO RRRO RROO
| |
| − | *genome: KRRO... (impossible to make a prediction with these data, probably need longer strings)
| |
| − | KRRO
| |
| − | RROG
| |
| − | *we expect: 3 GYGY, 3 RRGY, 7 RO (4 RO's certain from tests), 4 OR (3 OR's certain from tests) and/or GYGYGY, max 1 GYGYGY (unless ROGY diminishes water)
| |
| − |
| |
| − | '''Zaniac #390''' 4 2 5 1 0
| |
| − |
| |
| − | 2YRGY 3YOGY 5YRRG 5RORO 2GYRG 2YROK 5GYGY 6GYRR 2OGYG 3YGYY RYYO 2ORRG 3RRGY OROY RROR 3OROR YGYG 2RGYR RGYG YGYO YORR ROYR 3YGYR KRYY 2GYOR OYRO YYOG
| |
| − | Need GYY?(O expected) ?RRO(O or Y expected)
| |
| − | *genome: KRYYOGYGY ... ROROYROK (impossible to make a prediction with these data, probably need longer strings)
| |
| − | R|Y GYRGY G|R
| |
| − | KRYYOGYGY G|O|R|Y
| |
| − | R|Y GYRRGY G|R
| |
| − | O|R RORO R|Y
| |
| − | O|R ROROYROK
| |
| − | O|R|Y GYGYY OGYGY G|O|R|Y
| |
| − | O|R|Y GYGYORRGY G|R
| |
| − | O|Y RRGY G|R
| |
| − | GY|YO RRORO R|Y
| |
| − | O|R RORORO R|Y
| |
| − | O|R|Y GYGYGY G|O|R|Y
| |
| − | R|Y RGYR G|R
| |
| − | R|Y RGYGY G|O|R|Y
| |
| − | O|R|Y GYGYR G|R
| |
| − |
| |
| − |
| |
| − |
| |
| − | KRYY YRGY RROR RORO
| |
| − | RYYO RGYR or RGYG OROY
| |
| − | YYOG ROYR
| |
| − | YOGY OYRO
| |
| − | OGYG YROK
| |
| − | *we expect: 4 GYGY, 2 RRGY, 5 RO (3 RO's certain from tests), 4 OR (2 OR's certain from tests) and/or GYGYGY, max 1 GYGYGY (unless ROGY diminishes water)
| |
| − |
| |
| − | =Expectations when elongating OE and shortening NG=
| |
| − |
| |
| − | *OE elongations (RYYOG YGYOR RYORY OGYOR YRRRG GROYG RRYOO YGYR)
| |
| − | **duplicated genes without effect: all except 6 and 7
| |
| − | **duplicated genes that cause 0 flax: 6, 7
| |
| − | ***this is BAD NEWS (would cost a fortune in solvents to study each and every cross result), so might be better to get full genome of a more proficient seed that is pretty long, and have elongations often show in characteristics
| |
| − |
| |
| − | *NG shortening (ORGRG YGYGY GRGYO RYYRG ROYYO RR)
| |
| − | **lost genes without effect: 10, 11, 12, 13, 14, 17, 18, 19, 20, 23, 24, 27
| |
| − | **lost gene causing FATAL seed loss: 21 and 22
| |
| − | **flax (and probably watering) less: 4,5,6,7,8,9
| |
| − | **extra weed: 1, 2, 15, 16, 25, 26
| |
| − | **rotten flax add: 3
| |
| − | ***estimate 1/6 * 13/27 of the non-fatal crosses show a difference that COULD indicate shortening, some changes can indicate lengthening, therefore we'll look at what lengthening could cause:
| |
| − | ****add rotten flax (2 chances), flax (and probably watering) less (4 chances); meaning some same type of effects
| |
| − | ***estimate of crosses that show a difference (fatal seed loss included): 1/6 (9/27 + 13/27) = 13.6%
| |
Genomes Numbered
Flax Genomes
1 2
123456789012345678901234567 Nile Green
ORGRGYGYGYGRGYORYYRGROYYORR
1 2 3
123456789012345678901234567890123456789 Old Egypt
RYYOGYGYORRYORYOGYORYRRRGGROYGRRYOOYGYR
Orchid Genomes
1 2 3
123456789012345678901234567890 Arabian Nights
OUGUOUGUOUGUOIRGGOROOURYIGRIUO
1 2 3
1234567890123456789012345678901234 Hidden in Darkness
YRYROYGUOUGUOUYURYYYURORGGRYYURGGG
1 2
1234567890123456789012345678 Sabertooth
IRGGUGIOUIGRGGIOUGUOUGUOUGUO
1 2 3
1234567890123456789012345678901 Shangri-La
YIROIGUROIOUGUOUGUOUGUOIRYYIUOI
Rose Genomes
1
123456789012 Goldenleaves
UYGUYGUYGUYG
Sand Blooms
1 2
123456789012345678901234 Sacrifice
ROYORCROYORCROYORCROYORC
1
1234567890123 Sunshine
IYIYIYUYUYGYG
Sea Lily Genomes
1 2
12345678901234567890123456 Blush
GRORVGOOOVUROOVIOVIOOVIOOO
1 2 3
123456789012345678901234567890123456 Clarity
IRIRIOIOIYIYGORRGRORGRROGORRGRORGRRO
1234567890123456789012345678901234567 Crown
UROOUROOUROOVURVOOVURVORVURORURORUROR
1 2 3 4
123456789012345678901234567890123456789012 Energy
VVVVVUYYYUYYYGYYYGYYYGRROGRROURORURORVVVVV
1
123456789012345678 Fracture
ROYGROYGYORGORGOOO
1 2 3 4
12345678901234567890123456789012345678901234 Morning
IRRRIYYYIYYYUYYYUYYYURORURORGRRRGYYYGORRGRRO
1
123456789012345678 Silken
RRROOOYYYGGGUUUIII
1
123456789012 Vampire
IYIYIOIYIOIO
Vine Genomes
1 2 3
123456789012345678901234567890123 Amusement
OOORGGGGGGGGROOORGGGGGGGGGROGGGGG
1
123456789012 Appreciation
GYRYYRYYRYYR
1 2 3
1234567890123456789012345678901 Balance
YYYGGGRYYRGGGYROGGGRROOYYGGGOOR
1
123456789012345678 Contemplation
RYYRGYROGGGGGRYYRO
1 2
123 45678901234567890123 456789 Distraction
GGG?GGGGGGGGGGOOORGGGGGG?GGOOOR
1 2 3
12345678 90212345678901234567 8901 Frivolity
RROOYYGG?GGGYYYG?GYYYRROOYYGG?GGYR
1 2
123456789012345678901234 Wisdom
YROGYROGYROGGGGGGGGGGGGG
Wheat Genomes
1
1234567890123456789 Abacua
ROYGYRRRYYYOOOGYRRR
1 2 3
12345678901234567890123456789012 Candomble
OYRRYUYORRGUROYGUYRRUGYRRYUYYYRR
1
12345678901234 Druze
GRUOYOYGUOYRRY
1
1234567890123456789 Macumba
YGYROUGRYGUGRUYORRG
1
1234567890123456 Palo Mayombe
ORRGYUGGYRRUROYG
1 2
1234567890123456789012 Santeria
YORRGUORRGYUGRYGUYRROG
1
1234567890123456789 Wicca
YRROGUORRGYUGRUROYG
