CN1771791A - Method of raising ternary wheat hybrid breeding efficiency - Google Patents
Method of raising ternary wheat hybrid breeding efficiency Download PDFInfo
- Publication number
- CN1771791A CN1771791A CN 200510096301 CN200510096301A CN1771791A CN 1771791 A CN1771791 A CN 1771791A CN 200510096301 CN200510096301 CN 200510096301 CN 200510096301 A CN200510096301 A CN 200510096301A CN 1771791 A CN1771791 A CN 1771791A
- Authority
- CN
- China
- Prior art keywords
- rfrf
- wheat
- ovarys
- many
- line
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Breeding Of Plants And Reproduction By Means Of Culturing (AREA)
Abstract
The present invention discloses one method of raising ternary wheat hybrid breeding efficiency. By means of using the maintenance line of glutinous and partial wheat male sterility line as female parent and polyovary wheat as male parent and introducing the polyovary character gene into the nucleus of the maintenance line, polyovary line in the same type is first created. The polyovary character maintenance line as male parent and the glutinous and partial wheat male sterility line are then hybridized and backcross replaced to breed selectively corresponding polyovary sterility line with glutinous and partial sterile cytoplasm. The glutinous and partial polyovary sterility line is adopted in tissue mating and screening to obtain powerful dominant hybridized combination or reproduce original powerful dominant combination. The present invention exhibits polyovary character in female parent propagation and hybrid production, and raises propagation coefficient and breeding efficiency of sterile line obviously.
Description
Technical field
The present invention relates to wheat heterosis and utilize technical field, be specifically related to a kind of method that improves ternary wheat hybrid breeding efficiency.
Background technology
The heterotic research of plant is one of key areas of current genetics studys with utilizing, and at present, heterosis utilization has obtained huge economic benefit in actual production.Many researchs also show that wheat also has tangible hybrid vigour, and dark people's research and development utilization is the important channel that increases substantially wheat yield.
The approach of wheat heterosis utilization mainly contains 4 kinds: i.e. CMS (nucleo-cytoplasmic interreaction male sterility), CHA (male gametocide is induced male sterile), GMS (caryogram male sterile) and PCMS (photoperiod-temperature sensitive male sterility).Wherein, the CMS approach mainly is to be to utilize hybrid vigour by wheat male sterile line, maintenance line and recovery, therefore be called three line method again, this approach is in wheat heterosis research of current China and the utilization, real obtain initial success, and small size plantation or than large tracts of land pilot scale and one of main path of producing demonstration.
The CMS wheat male sterile line is divided into two classes, promptly puies forward class and sticking class.Putting forward class, is putting forward the general name that the type wheat male sterile line is a class male sterile line of representative, and outstanding characteristics are very easily to keep, and sterility is stable, but shortcoming is that the recovery source is narrow, and fringe easily germinates before the results, and low grade of crossbreed germination rate become the production obstacle.Sticking class, the general name of promptly sticking type (K type), easy type (V-type), bias tyre class male sterile lines such as (Ven types), its outstanding feature is not only easily to keep but also easily recover, and seed is full; Maintenance line with recover be resource all be distributed in common wheat recommended variety (being) in, economical character is good.
From present research, sticking class male sterile line is divided into sticking class 1B/1R male sterile line and the non-1B/1R male sterile line of sticking class again, and the shortcoming of sticking class 1B/1R male sterile line is because allogeneic cytoplasm and specific caryogram produce certain cytoplasm negative effect mutually, as male sterile line and F
1Monoploid, the restoring degree variation that all produces certain frequency is big, fertility instability and growth potential are weak etc.Though cultivated many strong advantage combinations up to standard, but still be difficult to move towards produce.What deserves to be mentioned is that Xibei Univ. of Agricultural ﹠ Forest Science ﹠ Technology has cultivated the sticking non-1B/1R wheat male sterile line of class at present by screening and seed selection for many years, has overcome the above-mentioned undesirable cell mass effect of sticking class 1B/1R wheat male sterile line preferably.Particularly the sterile owner of this batch to imitate fertile gene single, and easy restorative height, restoring degree is mostly all between 85-100%.Assembly goes out the above strong advantage combination of the 15-20% that partly exceeds standard on this basis.Develop these strong advantage combinations as early as possible, make the hybrid wheat large tracts of land move towards to produce, further improve the producing hybrid wheat seed benefit and become the key problem in technology that hybrid wheat is promoted.In fact, facts have proved the producing hybrid wheat seed benefit in a large number, perhaps can the reproduction coefficient in the production of hybrid seeds improve and become the bottleneck that can hybrid wheat large tracts of land be promoted.
The little strain large group of Triticum crop, reproduction coefficient is little, seed production cost height, though existing hybrid seed yield is by 50kg-60kg/667m
2Bring up to 150kg-250kg/667m
2(small size experiment), but can reach 250-400kg/667m with the hybrid seed yield of paddy rice, corn
2Compare still lower, and paddy rice, corn 667m
2Sowing quantity only be 1-1.5kg/667m
2And 2.5kg/667m
2, hybrid wheat is then wanted 6-7kg/667m
2Thereby in the production application process of hybrid wheat, need badly and consider the breeding benefit problem, promptly to develop solution and how improve reproduction coefficient, reduce the problem of seed production cost.
Multi ovary wheat, have 2-3 gynoecium in the Xiao Hua, three stamens, solid normal, genetic stability makes the seed quantity in normal each Xiao Hua rise to the 2-3 grain, applies it to producing hybrid wheat seed, thereby the hybrid wheat reproduction coefficient is improved greatly, and then bring the raising greatly of producing hybrid wheat seed benefit.Studies have shown that, the verify trait expression of heterozygosis dominance multi-ovary gene of the sterile cell of sticking class male sterile wheat line is inhibited, and do not influence the normal expression of the dominance multi-ovary gene that isozygotys, its this characteristic is applied in numerous production of hybrid seeds of triple crossing wheat, it is low that this has not only solved the hybrid wheat reproduction coefficient to a great extent, the practical problem that breeding cost is high, and the paces that the hybrid wheat production application is closed have more been accelerated really on producing, to break through, can make hybrid wheat be applied to large tracts of land production quickly, for the China and even the people of the world's grain security is done the contribution that makes new advances.
Summary of the invention
In order to overcome the existing wheat three series hybrid combination bottleneck that existing reproduction coefficient is low, breeding cost is high in female parent breeding and hybrid seeding, the purpose of this invention is to provide a kind of method that improves ternary wheat hybrid breeding efficiency.
Studies have shown that: utilize the verify trait expression of heterozygosis dominance multi-ovary gene of the sterile cell of sticking class male sterile wheat line inhibited, and don't the isozygoty normal expression of dominance multi-ovary gene of influence, its this characteristic is applied in numerous production of hybrid seeds of triple crossing wheat, the new male sterile line and the maintenance line that the existing strong advantage hybrid combination transformation of gluing the class wheat male sterile line can be become have many ovarys proterties not only, and by still keeping the hybrid vigour of original hybrid combination with original recovery system hybridization, and can utilize new many ovarys of the wheat male sterile line of this method seed selection, in order to the strong advantage combination of preparation and screening.That a kind of method no matter, the three-way cross hybrid of seed selection or transformation be combined in maternal breeding, produce in order to crossbreed as the female parent of the production of hybrid seeds and all show many ovarys proterties, can obviously improve the triple crossing wheat reproduction coefficient, reduce numerous breeding cost.Crossbreed can show list room proterties again in order to produce simultaneously, neither influences wheat high-quality quality, can ensure again to obtain high and stable output.
The technical solution of foregoing invention is achieved by following method:
A kind of method that improves ternary wheat hybrid breeding efficiency is characterized in that, comprises the following steps:
1, sticking, easily, the seed selection or the transformation of many ovarys of bias tyre wheat male sterile line maintenance line;
2, sticking, easily, the transformation of bias tyre multi ovary wheat male sterile line;
3, sticking, easily, bias tyre multi ovary wheat male sterile line propagation and crossbreed production.
1) sticking, easily, the seed selection or the transformation of many ovarys of bias tyre wheat male sterile line maintenance line, follow these steps to carry out:
1. be female parent with sticking, easy, bias tyre wheat male sterile line list room maintenance line [with N (mm rfrf)], wherein but N represents maintenance line hatching cell matter, m represent in the maintenance line cell nucleus list foundations because of, rf represents male sterile recessive gene in the cell nucleus, with multi ovary wheat [with A (MM RfRf)] hybridization, wherein A represents common wheat cytoplasm, and M represents multi-ovary gene in the common wheat cell nucleus, on behalf of the interior male sterile dominance of cell nucleus, Rf can educate gene, obtains F
1[N (Mm Rfrf)] shows many ovarys;
2. many ovarys F
1[N (Mm Rfrf)] is maternal, and sticking, easy, bias tyre wheat male sterile line list room maintenance line [N (mm rfrf)] is backcrossed for male parent, obtains BC
1The ovary proterties is separated, show monocarpous plant [N (mm Rfrf)+N (mm rfrf)] and eliminate, the plant [N (Mm Rfrf)+N (Mm rfrf)] that shows many ovarys keeps, and selects the many ovary individual plant similar to recurrent parent (maintenance line) proterties so that proceed test cross and backcross;
3. the plant [N (Mm Rfrf)+N (Mm rfrf)] that shows many ovarys continue to do maternally to decide strain with recurrent parent [maintenance line, N (mm rfrf)] and backcross, and obtains two class BC
2, a class is that fertility is all separated [N (Mm Rfrf)+N (mm rfrf)] (eliminating) with the ovary proterties, another kind of is that the ovary proterties is separated, fertility is not separated [N (Mm rfrf)+N (mm rfrf)] (reservation).
When 4. carrying out 3., utilize BC
1In the many ovarys of performance plant [N (Mm Rfrf)+N (Mmrfrf)] with sticking, easily, one of bias tyre wheat male sterile line carries out test cross, as: sticking type male sterile line [K (mm rfrf)], also obtain two class test cross offsprings, one class shows as list room complete sterility [K (Mm rfrf)+K (mm rfrf)] (keeping test cross male parent offspring), and the another kind of list room fertility that then shows as is separated [K (Mm Rfrf)+K (mm rfrf)] (eliminating test cross male parent offspring).
5. according to deciding that strain is backcrossed and test cross result 3. and 4., decide the strain male parent offspring that backcrosses what the test cross offspring showed list room complete sterility, be that the ovary proterties is separated, fertility do not separate the many ovarys individual plant [N (Mm rfrf)] of selecting and remain among the offspring [N (Mm rfrf)+N (mm rfrf)] and continues to decide strain with recurrent parent [maintenance line, N (mm rfrf)] and backcross as maternal.
6. repeat 3., 4., work 5., similar up to the backcross progeny economical character to recurrent parent (maintenance line) proterties, select for use the individual plant [N (Mm rfrf)] of the many ovarys of performance to carry out selfing then and separate homozygous genotype.
7. [N (Mm rfrf) carries out the selfing purifying to many ovarys individual plant of selecting and remain from 6., obtains the self progeny [many ovarys of isozygotying, N (MM rfrf)+assorted and many ovarys, N (Mm the rfrf)+list room that isozygotys, N (mm rfrf)] that the ovary proterties is separated.
8. the many ovarys self progeny in is 7. continued to decide the strain selfing, among the self progeny that selects and remain many ovarys proterties not segregation population be to want the new maintenance line of the many ovarys of isozygotying of seed selection or transformation [N (MM rfrf)].
9. be male parent with the new maintenance line of many ovarys [N (MM rfrf)] in 8., to show as list room complete sterility [K (Mm rfrf)+K (mm rfrf)] test cross offspring in 4. is female parent, perhaps direct employing is sticking, easy, the bias tyre wheat male sterile line carries out deciding strain and backcrosses displacement 4-5 generation, until selecting many ovarys new sterile line at certain backcross progeny, and other economical character of male sterile line is with the new maintenance line of many ovarys.At this moment, sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] seed selection successfully.
2) sticking, easily, the transformation of bias tyre multi ovary wheat male sterile line, follow these steps to carry out:
1. sticking, easy with the list room, bias tyre wheat male sterile line [K (mm rfrf), V (mm rfrf), Ven (mm rfrf)] is a female parent, and the new maintenance line of many ovarys [N (MM rfrf)] is hybridized for male parent, obtains list room complete sterility F
1[K (Mm rfrf), V (Mm rfrf), Ven (Mm rfrf)];
2. list room complete sterility F
1[K (Mm rfrf), V (Mm rfrf), Ven (Mm rfrf)] is maternal, with the new maintenance line of the many ovarys of former male parent [N (MM rfrf)] is that recurrent parent is proceeded to backcross displacement 4-5 generation, until the stable many ovarys complete sterility that occurs of backcross progeny, economical character is with the new maintenance line of the many ovarys of recurrent parent, sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)], i.e. transformation is successfully;
3) sticking, easily, bias tyre multi ovary wheat male sterile line propagation and crossbreed production, follow these steps to carry out:
1. multi ovary wheat sterile line propagation district, sticking, easily, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] be by hybridizing from generation to generation or the breeding of backcrossing, constantly acquisition has many ovarys of wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] sticking, easy, bias tyre sterile cytoplasm source;
2. multi ovary wheat hybrid seeding district, with sticking, easy, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] is female parent, recover system [A (mm RfRf)] hybridization or test cross with common wheat, carry out the production of hybrid seeds or the screening of strong advantage combination; Or be that hybrid seeding is carried out in male parent [A (mm the RfRf)] assembly of strong advantage combination with former three directly, improve former production of hybrid seeds reproduction coefficient, reduce former breeding cost, revealing former three again is to make up hybrid vigour production application is provided; [[K (Mm Rfrf), V (Mm Rfrf), Ven (Mm Rfrf)] all shows the list room to the crossbreed that the production of hybrid seeds obtains.
Technique effect that method of the present invention is brought and progressive being:
1, The present invention be directed to the bottleneck that is faced in the domestic and international hybrid wheat research and development, promptly hybrid wheat wants large-area applications in production, improve the wheat reproduction coefficient, and it is most important and propose to create the high benefit seeding technique.
2, use seed selection of the present invention or transformation sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MMrfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)], show many ovarys proterties at it as parent propagation with as the female parent in the producing hybrid wheat seed, can obviously improve the wheat seed reproduction coefficient, reduce numerous breeding cost, and then increase substantially the production of hybrid seeds benefit of hybrid wheat.
3, adopt the crossbreed of producing after the multi ovary wheat production of hybrid seeds, be provided to production application and show as list room proterties again, neither influence the wheat fine quality, can ensure again to obtain high and stable output helps applying very much.
4, the present invention is applied to hybrid wheat fully, hybrid wheat parent propagation coefficient is improved greatly, bring the raising greatly of producing hybrid wheat seed benefit, the more important thing is from the key problem in technology of hybrid wheat utilization and solved the bottleneck that hybrid wheat is used, the i.e. acquisition of high benefit seeding technique.
5. the present invention is different from other crop heterosis fully and utilizes method, fully hybrid wheat and conventional breeding are organically combined, not only hybrid wheat can be based upon on the newest fruits of conventional breeding, makes hybrid wheat breeding on the conventional breeding basis and then can reach the technological change of " when the river rises the boat goes up " formula.And obtained to be higher than the reproduction coefficient of conventional breeding, and more accelerated really on producing, to break through the paces that the hybrid wheat production application is closed, can make hybrid wheat be applied to large tracts of land production quickly, for the China and even the people of the world's grain security is done the contribution that makes new advances.
Description of drawings
Fig. 1 is many ovarys of wheat male sterile line and corresponding maintenance line seed selection schematic diagram thereof;
Fig. 2 is a multi ovary wheat male sterile line transformation schematic diagram;
Fig. 3 is that multi ovary wheat male sterility three line approach sterile line propagation and crossbreed produce schematic diagram.
Below contrast accompanying drawing and the embodiment that provides in conjunction with the inventor, the present invention is described in further detail.
Embodiment
The present invention adopts the cytoplasm replacement technique and the genetic analysis technology of rigorous and scientific, be maternal at first with maintenance sticking, easy, the bias tyre wheat male sterile line, multi ovary wheat is a male parent, with carry many ovarys character gene by hybridize, backcross, in the cytoplasm of maintenance line that method such as test cross imports to sticking, easy, bias tyre wheat male sterile line, therefrom select to have the individuality and the self progeny thereof of multi-ovary gene, to obtain new maintenance line with many ovarys proterties of isozygotying.Then, be male parent with this new maintenance again with many ovarys proterties, sticking, easily, the bias tyre wheat male sterile line hybridizes and displacement is subsequently backcrossed for maternal, finally selects sticking, easy, bias tyre multi ovary wheat male sterile line and corresponding many ovarys maintenance line.With this sticking, easily, bias tyre multi ovary wheat male sterile line is approach assembly or the strong advantage hybrid combination of screening wheat in order to three, or reproduce original strong advantage and make up, can breed at female parent, many ovarys of performance proterties in the crossbreed production production of hybrid seeds, obviously improve reproduction coefficient, reduce numerous breeding cost; Crossbreed is provided to production application and shows as list room proterties again, neither influences the wheat fine quality, can ensure again to obtain high and stable output.This has opened up a brand-new research field for realizing the super wheat breeding objective, provides a cover practical, otherwise effective technique scheme.
Implement example:
Accompanying drawing 1 has provided the technology path of initiative wheat many ovarys male sterile line and corresponding maintenance line seed selection thereof; Fig. 2 is the technology path of multi ovary wheat male sterile line transformation; What Fig. 3 then provided is the technology path that multi ovary wheat male sterility three line approach sterile line propagation and crossbreed produce.
Below be that the inventor is according to technical scheme of the present invention, sticking with existing list room, easily, bias tyre wheat male sterile line [K (mm rfrf), V (mm rfrf), Ven (mm rfrf)] and list room maintenance line [N (mm rfrf)] be example, desire is many ovarys male sterile line and many ovarys maintenance line with its transformation, according to technical scheme of the present invention, the steps include:
1. be female parent with sticking, easy, bias tyre wheat male sterile line list room maintenance line [with N (mm rfrf)], wherein but N represents maintenance line hatching cell matter, m represent in the maintenance line cell nucleus list foundations because of, rf represents male sterile recessive gene in the cell nucleus, with multi ovary wheat [with A (MM RfRf)] hybridization, wherein A represents common wheat cytoplasm, and M represents multi-ovary gene in the common wheat cell nucleus, on behalf of the interior male sterile dominance of cell nucleus, Rf can educate gene, obtains F
1[N (Mm Rfrf)] shows many ovarys;
2. many ovarys F
1[N (Mm Rfrf)] is maternal, and sticking, easy, bias tyre wheat male sterile line list room maintenance line [N (mm rfrf)] is backcrossed for male parent, obtains BC
1The ovary proterties is separated, to show monocarpous plant [N (mm Rfrf)+N (mm rfrf)] eliminates, the plant [N (Mm Rfrf)+N (Mm rfrf)] of the many ovarys of performance is kept, select the many ovary individual plant similar so that proceed test cross and backcross to recurrent parent (maintenance line) proterties;
3. the plant [N (Mm Rfrf)+N (Mm rfrf)] that shows many ovarys continue to do maternally to decide strain with recurrent parent [maintenance line, N (mm rfrf)] and backcross, and obtains two class BC
2, a class is that fertility is all separated [N (Mm Rfrf)+N (mm rfrf)] (eliminating) with the ovary proterties, another kind of is that the ovary proterties is separated, fertility is not separated [N (Mm rfrf)+N (mm rfrf)] (reservation).
4. carry out step 3. the time, utilize BC
1In the many ovarys of performance plant [N (Mm Rfrf)+N (Mm rfrf)] with sticking, easily, one of bias tyre wheat male sterile line carries out test cross, as: sticking type male sterile line [K (mm rfrf)], also obtain two class test cross offsprings, one class shows as list room complete sterility [K (Mmrfrf)+K (mm rfrf)] (keeping test cross male parent offspring), and the another kind of list room fertility that then shows as is separated [K (Mm Rfrf)+K (mm rfrf)] (eliminating test cross male parent offspring).
5. 3. decide that strain is backcrossed and test cross result in 4. according to step with step, decide the strain male parent offspring that backcrosses what the test cross offspring showed list room complete sterility, be that the ovary proterties is separated, fertility do not separate the many ovarys individual plant [N (Mm rfrf)] of selecting and remain among the offspring [N (Mmrfrf)+N (mm rfrf)] and continues to decide strain with recurrent parent [maintenance line, N (mm rfrf)] and backcross as maternal.
6. repeating step 3., 4., 5., similar up to the backcross progeny economical character to recurrent parent (maintenance line) proterties, select for use the individual plant [N (Mm rfrf)] of the many ovarys of performance to carry out selfing then and separate homozygous genotype.
7. [N (Mm rfrf) carries out the selfing purifying to many ovarys individual plant of selecting and remain 6. from step, obtains the self progeny [many ovarys of isozygotying, N (MM rfrf)+assorted and many ovarys, N (Mm the rfrf)+list room that isozygotys, N (mm rfrf)] that the ovary proterties is separated.
8. the many ovary self progeny of step in 7. continued to decide the strain selfing, among the self progeny that selects and remain many ovarys proterties not segregation population be to want the new maintenance line of the many ovarys of isozygotying of seed selection or transformation [N (MMrfrf)].
9. be male parent with the new maintenance line of many ovarys [N (MM rfrf)] of step in 8., to show as list room complete sterility [K (Mm rfrf)+K (mm rfrf)] test cross offspring in 4. is female parent, perhaps direct employing is sticking, easy, the bias tyre wheat male sterile line carries out deciding strain and backcrosses displacement 4-5 generation, until selecting many ovarys new sterile line at certain backcross progeny, and other economical character of male sterile line is with the new maintenance line of many ovarys.At this moment, sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] be seed selection successfully.
2, after the transformation sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MMrfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] breed and hybrid seeding, follow these steps to carry out:
1. multi ovary wheat sterile line propagation district, sticking, easily, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] be by hybridizing from generation to generation or the breeding of backcrossing, that sustainable continuous acquisition has is sticking, easy, many ovarys of wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] in bias tyre sterile cytoplasm source;
2. multi ovary wheat hybrid seeding district, with sticking, easy, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] is female parent, recover system [A (mm RfRf)] hybridization or test cross with common wheat, just can carry out the production of hybrid seeds or the screening of strong advantage combination; Or be that hybrid seeding is carried out in male parent [A (mm the RfRf)] assembly of strong advantage combination with former three directly, can improve former production of hybrid seeds reproduction coefficient greatly, reduce former breeding cost, revealing former three again is to make up hybrid vigour production application is provided.No matter adopt what approach, [[K (Mm Rfrf), V (Mm Rfrf), Ven (MmRfrf)] all shows the list room to the crossbreed that the production of hybrid seeds obtains, and neither influences the wheat fine quality, can ensure again to obtain high and stable output.
Through facts have proved, adopt formulate among the present invention sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)], in order to three is approach assembly or the superpower advantage hybrid combination of screening wheat, or reproduce original strong advantage and make up, can breed at female parent, many ovarys of performance proterties in the crossbreed production production of hybrid seeds, obviously improve reproduction coefficient, reduce numerous breeding cost; Crossbreed is provided to production application and shows as list room proterties again, neither influences the wheat fine quality, can ensure again to obtain high and stable output.This to practical function of promoting the wheat heterosis utilization, accelerate hybrid wheat and really break through the paces that production application is closed, and do the contribution that makes new advances for the China and even the people of the world's grain security important scientific value and more practical value arranged.
Claims (1)
1. a method that improves ternary wheat hybrid breeding efficiency is characterized in that, comprises the following steps:
1) sticking, easily, the seed selection or the transformation of many ovarys of bias tyre wheat male sterile line maintenance line
1. be female parent with sticking, easy, bias tyre wheat male sterile line list room maintenance line [N (mm rfrf)], wherein but N represents maintenance line hatching cell matter, m represent in the maintenance line cell nucleus list foundations because of, rf represents male sterile recessive gene in the cell nucleus, with multi ovary wheat [A (MM RfRf)] hybridization, wherein A represents common wheat cytoplasm, and M represents multi-ovary gene in the common wheat cell nucleus, on behalf of the interior male sterile dominance of cell nucleus, Rf can educate gene, obtains many ovarys of performance F
1[N (Mm Rfrf)];
2. many ovarys F
1[N (Mm Rfrf)] is maternal, and sticking, easy, bias tyre wheat male sterile line list room maintenance line [N (mm rfrf)] is backcrossed for male parent, obtains BC
1The ovary proterties is separated, to show monocarpous plant [N (mm Rfrf)+N (mm rfrf)] and eliminate, with plant [N (Mm Rfrf)+N (Mm the rfrf)] reservation of the many ovarys of performance, selecting to recurrent parent is that the similar many ovarys individual plant of maintenance line proterties is to carry out test cross and to backcross;
3. the plant [N (Mm Rfrf)+N (Mm rfrf)] that shows many ovarys continue to do maternally to decide strain with recurrent parent [maintenance line, N (mm rfrf)] and backcross, and obtains two class BC
2, a class is that fertility is all separated [N (Mm Rfrf)+N (mm rfrf)] with the ovary proterties, eliminates; Another kind of is that the ovary proterties is separated, fertility is not separated [N (Mm rfrf)+N (mm rfrf)], keeps;
4. carry out step 3. the time, utilize BC
1In the many ovarys of performance plant [N (Mm Rfrf)+N (Mm rfrf)] with sticking, easily, the sticking type male sterile line [K (mm rfrf)] of one of bias tyre wheat male sterile line carries out test cross, also obtain two class test cross offsprings, one class shows as list room complete sterility [K (Mm rfrf)+K (mm rfrf)], keep test cross male parent offspring, the another kind of list room fertility that then shows as is separated [K (MmRfrf)+K (mm rfrf)], eliminates test cross male parent offspring;
5. 3. decide that strain is backcrossed and test cross result in 4. according to step with step, decide the strain male parent offspring that backcrosses what the test cross offspring showed list room complete sterility, promptly the ovary proterties is separated, not separate that the many ovarys individual plant [N (Mm rfrf)] of selecting and remain among the offspring [N (Mmrfrf)+N (mm rfrf)] continues as maternal and recurrent parent be that maintenance line [N (mm rfrf)] is decided strain and backcrossed to fertility;
6. repeating step 3., step 4., step 5., similar up to the backcross progeny economical character to recurrent parent (maintenance line) proterties, select for use the individual plant [N (Mm rfrf)] of the many ovarys of performance to carry out selfing then and separate homozygous genotype;
7. many ovarys individual plant [N (Mm rfrf)] of selecting and remain 6. from step carries out the selfing purifying, obtains self progeny that the ovary proterties the separates many ovarys [N (MM rfrf)+assorted and many ovarys N (Mm rfrf)+list room N (mm rfrf) isozygotys] of isozygotying;
8. the many ovary self progeny of step in 7. continued to decide the strain selfing, among the self progeny that selects and remain many ovarys proterties not segregation population be to want the new maintenance line of the many ovarys of isozygotying of seed selection or transformation [N (MM rfrf)];
9. be male parent with the new maintenance line of many ovarys [N (MM rfrf)] of step in 8., 4. showing as list room complete sterility [K (Mm rfrf)+K (mm rfrf)] test cross offspring with step in is female parent, perhaps direct employing is sticking, easy, the bias tyre wheat male sterile line carries out deciding strain and backcrosses displacement 4-5 generation, until selecting many ovarys new sterile line at certain backcross progeny, and other economical character of male sterile line is with the new maintenance line of many ovarys; At this moment, sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] be seed selection successfully;
2) sticking, easily, the transformation of bias tyre multi ovary wheat male sterile line
1. sticking, easy with the list room, bias tyre wheat male sterile line [K (mm rfrf), V (mm rfrf), Ven (mm rfrf)] is a female parent, and the new maintenance line of many ovarys [N (MM rfrf)] is hybridized for male parent, obtains list room complete sterility F
1[K (Mm rfrf), V (Mm rfrf), Ven (Mm rfrf)];
2. list room complete sterility F
1[K (Mm rfrf), V (Mm rfrf), Ven (Mm rfrf)] is maternal, with the new maintenance line of the many ovarys of former male parent [N (MM rfrf)] is that recurrent parent is proceeded to backcross displacement 4-5 generation, until the stable many ovarys complete sterility that occurs of backcross progeny, economical character is with the new maintenance line of the many ovarys of recurrent parent, sticking, easily, many ovarys of bias tyre wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)], i.e. transformation is successfully;
3) sticking, easily, bias tyre multi ovary wheat male sterile line propagation and crossbreed production
1. multi ovary wheat sterile line propagation district, sticking, easily, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] and corresponding maintenance line [N (MM rfrf)] be by hybridizing from generation to generation or the breeding of backcrossing, constantly acquisition has many ovarys of wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] sticking, easy, bias tyre sterile cytoplasm source;
2. multi ovary wheat hybrid seeding district, with sticking, easy, bias tyre multi ovary wheat male sterile line [K (MM rfrf), V (MM rfrf), Ven (MM rfrf)] is female parent, recover system [A (mm RfRf)] hybridization or test cross with common wheat, carry out the production of hybrid seeds or the screening of strong advantage combination; Or be that hybrid seeding is carried out in male parent [A (mm the RfRf)] assembly of strong advantage combination with former three directly, improve former production of hybrid seeds reproduction coefficient, reduce former breeding cost, revealing former three again is to make up hybrid vigour production application is provided; [[K (Mm Rfrf), V (Mm Rfrf), Ven (Mm Rfrf)] all shows the list room to the crossbreed that the production of hybrid seeds obtains.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB200510096301XA CN100401878C (en) | 2005-11-07 | 2005-11-07 | Method of raising ternary wheat hybrid breeding efficiency |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB200510096301XA CN100401878C (en) | 2005-11-07 | 2005-11-07 | Method of raising ternary wheat hybrid breeding efficiency |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1771791A true CN1771791A (en) | 2006-05-17 |
CN100401878C CN100401878C (en) | 2008-07-16 |
Family
ID=36759061
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNB200510096301XA Expired - Fee Related CN100401878C (en) | 2005-11-07 | 2005-11-07 | Method of raising ternary wheat hybrid breeding efficiency |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN100401878C (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103875462A (en) * | 2014-03-18 | 2014-06-25 | 新疆农垦科学院 | Triple cross wheat breeding technical method |
CN109644865A (en) * | 2019-01-29 | 2019-04-19 | 山西省农业科学院小麦研究所 | A kind of hybrid wheat selection that achievable restoring gene is cumulative |
CN110195100A (en) * | 2018-02-27 | 2019-09-03 | 创世纪种业有限公司 | F type triple crossing wheat male sterility gene-correlation molecular markers development and application |
-
2005
- 2005-11-07 CN CNB200510096301XA patent/CN100401878C/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103875462A (en) * | 2014-03-18 | 2014-06-25 | 新疆农垦科学院 | Triple cross wheat breeding technical method |
CN103875462B (en) * | 2014-03-18 | 2015-03-11 | 新疆农垦科学院 | Triple cross wheat breeding technical method |
CN110195100A (en) * | 2018-02-27 | 2019-09-03 | 创世纪种业有限公司 | F type triple crossing wheat male sterility gene-correlation molecular markers development and application |
CN109644865A (en) * | 2019-01-29 | 2019-04-19 | 山西省农业科学院小麦研究所 | A kind of hybrid wheat selection that achievable restoring gene is cumulative |
Also Published As
Publication number | Publication date |
---|---|
CN100401878C (en) | 2008-07-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102657077B (en) | Long-grain hybrid japonica rice restorer selection method | |
CN1762199A (en) | Method for obtaining cytoplasm male sterility three lines from paddy TGMS(thermo-sensitive genic male sterile) line | |
CN1826875A (en) | Method for selectively breeding hybrid wheat by two-line method utilizing blue grain as marking character | |
CN1864477A (en) | Cotton leafstalk tissue cultivation and high-differentiation cotton material selective breeding method | |
CN1843087A (en) | High stigma exposure rate japonica rice sterile line selection and breeding technology | |
CN101379948A (en) | Breeding method of stress resistant green onion breed | |
CN101077061A (en) | Process for preparing hybridization buckwheat | |
CN1028471C (en) | Two system method crossbreeding technology for long-grained nonglutinous rice subspecised | |
CN1771791A (en) | Method of raising ternary wheat hybrid breeding efficiency | |
CN1314315C (en) | Selective breeding method and seed preparing method for Japonica rice variety | |
CN100344223C (en) | Polyploid rice breeding and detecting method with polyploid meiosis stability gene | |
Francis et al. | Apomixis as a tool for development of high yielding clones and selections in Jatropha curcas L. | |
CN100334944C (en) | Method for increasing breeding benefit of wheat hybrid | |
CN1307866C (en) | Rape cytoplasmic male sterility + self incompatibility hybrid superiority using method | |
CN1820581A (en) | Breeding method for chilli pepper nuclear male sterile dual purpose line and nuclear substance male sterile recovery line | |
CN1554226A (en) | Wheat multiple gene polymerization breeding method by recurrent selection of molecule labeling and hypochromatosis combination | |
CN1806518A (en) | Method for cultivating novel wheat male sterile line and maintenance line | |
CN1037654C (en) | Rape cell nucleus and cytoplasm male sterility trilinear selection and breeding method | |
CN110951906A (en) | High generation backcross Molecule Recurrent Selection (MRSAB) breeding method I-a method for cultivating and utilizing dominant early panicle non-yield-reduction material | |
CN1813522A (en) | Method for identifying pseudo hybrid strain during nuclear male sterile hybrid cotton seedling stage for increasing cotton yield | |
CN1860855A (en) | Method for breeding corn-rice line-three with super-strong hybridization-dominating due to distant-hybridization by rice and corn | |
CN1141017C (en) | Method for selectively breeding temperature-sensitive sterile line of wheat suitable for Yellow River-Huai River region in China | |
CN1954666A (en) | Rice protection cytoplasmic male sterile line and recovery line directive breeding method | |
CN114591967B (en) | Application of corn TCP gene in cross breeding | |
CN1041988C (en) | Breeding method of reversible dual-purpose male nucleus sterile line of rice |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |