Transference of multiple resistance to peanut through the development of cross-compatible complex hybrids of wild <i>Arachis</i>

Fávero, Alessandra Pereira; Custodio, Adriana Regina; Dinato, Naiana Barbosa; Godoy, Ignácio José de; Seijo, José Guillermo; Michelotto, Marcos Doniseti

doi:10.1590/1678-4685-GMB-2019-0099

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Plant Genetics • Genet. Mol. Biol. 43 (2) • 2020 • https://doi.org/10.1590/1678-4685-GMB-2019-0099 copy

Transference of multiple resistance to peanut through the development of cross-compatible complex hybrids of wild Arachis

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

Peanut (Arachis hypogaea L.) is a tetraploid species with an A and B genome, while the majority of wild Arachis species are diploid with distinct genomes. In pre-breeding programs, one way to introgress interesting wild genes into peanut is by producing amphidiploids. This study aimed at the hybridization between distinct amphidiploids and their characterization, to combine high crossability with peanut, observed in some amphidiploids, with high pest and disease resistances observed in others. These new hybrids were called complex hybrids. Four amphidiploids previously obtained were crossed at four different combinations, and the derived complex hybrids were crossed with four peanut cultivars. Morphological, reproductive, chromosome complement, molecular markers for hybrid identification, phytopatological, and entomological characterizations were performed on the complex hybrids. All cross combinations resulted in complex hybrids. One complete complement of each diploid progenitor was confirmed in each hybrid. Plants of six distinct hybrid combinations were obtained between the complex hybrids and peanut. Based on morphological characterization, differences among progenies from distinct cross combinations were observed. Complex hybrids were considered more resistant to all diseases and pests than peanut cultivars. The simultaneous introgression of genes from four wild Arachis species into peanut was possible through the development of complex hybrids.

Keywords:
Amphidiploids; wild species; genetic resources; groundnut; Arachis hypogaea

Accession^* * Collector/Institutional abbreviations: B= Banks; Bi= L.B. Bianchetti; Ev= A. Echeverry; G= W.C. Gregory; Gr= A. Gripp; K= A. Krapovickas; Nv= L. Novara; P= J.R. Pietrarelli; Po= A. Pott; S= C.E. Simpson; Sc= A. Schinini; V=J.F.M. Valls.	Species	BRA	Municipality	State/Country^ Country or state: ARG= Argentina; BOL= Bolívia; BRA=Brazil; MT= Mato Grosso; MS= Mato Grosso do Sul; SP= São Paulo.	Genome
GKP 10017	A. cardenasii Krapov. & W. C.Gregory	013404	Roboré	BOL	AA
VNvEv 14167	A. duranensis Krapov. & W. C.Gregory	036200	Salta	ARG	AA
VSGr 6389	A. gregoryi C.E. Simpson, Krapov. & Valls	012696	Vila Bela da Ssa. Trindade	MT	BB
VSGr 6325	A. helodes Martius ex Krapov. & Rigoni	012505	S. Antonio do Leverger	MT	AA
KG 30006	A. hoehnei Krapov. & W. C. Gregory	036226	Corumbá	MS	K?
cv. IAC Tatu ST	A. hypogaea L.	011606		BRA	AABB
cv. IAC Runner	A. hypogaea L.	037389		BRA	AABB
cv. IAC Caiapó	A. hypogaea L.	037371		BRA	AABB
cv. BR 1	A. hypogaea L.	033383		BRA	AABB
KGBPScS 30076	A. ipaënsis Krapov. & W. C. Gregory	036234	Ipá	BOL	BB
VPoBi 9401	A. linearifolia Valls & C. E.Simpson	022608	S. Antonio do Leverger	MT	AA

Code	Female parent		Male parent	NP	H	PS	PC	F₂	Genome
HC1	(K 30076 x V14167)^4X	x	(V 6389 x V 9401)^4X	554	19	3.43	65.13 a	34	B_iB_gA_dA_l
HC2	(K 30076 x V14167)^4X	x	(K 30006 x V 6325)^4X	296	2	0.68	0.33 c	1	B_iA_dK?_hoA_he
HC3	(V 6389 x V 9401)^4X	x	(K 30006 x V 6325)^4X	416	4	0.96	12.50 b	0	B_gA_lK?_hoA_he
HC4	(V 6389 x V 9401)^4X	x	(K 30006 x G 10017)^4X	330	12	3.64	7.25 c	0	B_gA_lK?_hoA_car
	Total			1,596	37

Female parent		Male parent	NP	H	PS	PC	F₂
IAC Caiapó	x	HC1	134	1	0.74	65.34	8
IAC Runner	x	HC1	87	1	1.15	80.69	18
IAC Tatu ST	x	HC1	146	0	0	Na	0
BR 1	x	HC1	184	0	0	Na	0
IAC Caiapó	x	HC2	20	0	0	Na	0
IAC Runner	x	HC2	38	2	5.26	89.42	44
IAC Tatu ST	x	HC2	53	1	1.89	76.35	87
BR 1	x	HC2	48	1	2.08	Ne	0
IAC Caiapó	x	HC3	74	0	0	Na	0
IAC Runner	x	HC3	52	0	0	Na	0
IAC Tatu ST	x	HC3	157	0	0	Na	0
BR 1	x	HC3	91	0	0	Na	0
IAC Caiapó	x	HC4	57	0	0	Na	0
IAC Runner	x	HC4	36	0	0	Na	0
IAC Tatu ST	x	HC4	194	0	0	Na	0
BR 1	x	HC4	117	0	0	Na	0
Total			1,488	6

Multiplex	Primer	Fluorescence	Size (bp)	Temperature (°C)	Analyzed
1	TC3E02	Blue	270-310	58	X
	AC2H11	Green	230-270	58	X
	TC7G10	Blue	110-142	58	X
2	TC7H11	Blue	340-360	58	X
	RN2C06	Green	190-220	58	X
	TC6E01	Blue	154-186	58	X
3	TC7A02	Blue	308-320	58	X
	GI-338	Green	240-270	58	X
	TC4F12	Blue	220-232	58	X
	GI-832	Green	200-210	56	X
4	TC11A02	Green	284-292	58	X
	TC6H03	Blue	210-228	58	X
	RN22G07	Green	180-210	58	X
5	TC9F10	Green	286-320	56	X
	TC1D02	Blue	242-278	56	X
	GI-342	Green	210-240	58	X
6	RNO-681	Green	310-350	54
	TC7E04	Blue	290-300	56	X
	TC9F04	Green	122-142	54
7	AC2B03	Green	296-308	54	X
	TC2B09	Blue	190-200	52	X
	RI1F06	Green	312-372	56	X
8	GI-1107	Green	360-384	52	X
	TC1A02	Blue	240-276	54	X
9	TC3H02	Blue	280-300	54	X
	TC11A04	Green	172-204	52	X
	TC6G09	Blue	132-146	50	X
10	TC2A02	Blue	194-212	48	X
	RNO-615	Green	390-400	56
11	TC1E01	Blue	154-248	48	X
	TC9C12	Green	256-300	54
	TC7C06	Blue	148-176	52	X
	TC11H06	Green	190-214	52	X
12	TC1A01	Blue	202-222	54
	TC2D06	Blue	196-224	48
	TC3E05	Blue	358-370	48
	RN8C09	Green	260-290	56	X

Descriptor	HC1	HC2	HC3	HC4	CV%
Apical leaflet length MA^* * in mm. MA = Main axis, LB = Lateral branch. CV% = coefficient of variation (in percentage)	63.39 a	62.12 a	67.55 a	48.56 a	15.51
Basal leaflet length MA	57.20 ab	53.68 ab	61.93 a	45.18 b	13.94
Apical leaflet width MA	31.29 a	26.19 ab	24.66 ab	20.64 b	16.08
Basal leaflet width MA	24.59 a	20.16 ab	19.40 ab	16.52 b	17.49
Petiolule length MA	19.21 a	17.45 a	20.63 a	15.48 a	17.41
Petiole length MA	53.37 a	51.98 a	59.11 a	53.82 a	17.25
Length of the stipule adnate part MA	6.02 a	11.39 a	5.85 a	7.43 a	41.13
Length of the stipule free part MA	30.50 a	27.39 a	31.72 a	26.23 a	11.89
Width of the stipule adnate part MA	3.63 a	3.61 a	3.54 a	3.83 a	21.51
Apical leaflet length LB	34.01 ab	45.69 a	33.02 ab	30.34 b	20.15
Basal leaflet length LB	31.34 a	36.81 a	28.63 a	27.79 a	23.44
Apical leaflet width LB	25.17 a	26.48 a	19.90 a	18.10 a	20.94
Basal leaflet width LB	19.60 a	20.75 a	15.46 a	15.26 a	22.76
Petiolule length LB	22.73 a	28.22 a	18.22 a	23.89 a	30.26
Petiole length LB	12.55 a	13.16 a	12.67 a	10.51 a	17.47
Length of the stipule adnate part LB	5.91 ab	7.74 a	4.11 b	4.37 b	17.04
Length of the stipule free part LB	20.18 a	21.41 a	18.42 a	15.61 a	15.58
Width of the stipule adnate part LB	4.32 a	3.70 a	3.74 a	3.97 a	17.14
Standard length	10.07 b	13.20 a	12.20 a	12.26 a	5.97
Standard width	6.54 a	7.75 a	6.83 a	6.77 a	8.97
Wing length	7.44 b	8.34 ab	9.08 a	9.08 a	5.90
Width of the wing width	4.91 b	6.38 ab	5.82 ab	6.43 a	11.54
Inferior lip length	6.99 a	6.69 a	8.88 a	9.14 a	13.82
Posterior lip length	5.57 a	5.74 a	5.59 a	6.51 a	15.52
Hypanthium length	13.40 b	28.50 a	29.76 a	34.44 a	22.29

Hybrid	45 S rDNA		5 S		A9 + small A. hoehnei
	Expected	Observed	Expected	Observed	Expected	Observed
HC1	8 (3ipa+2greg) + (2dur+1lin)	8 (5B +3A)	4 (1ipa+1greg) + (1dur+1lin)	4	2	2
HC2	10 (3ipa)+(2dur+2 hoeh+3hel)	10(3B+4-5A+2ho)	4 (1ipa)+(1dur+1hoeh+1hel)	4	2+1	2+1
HC3	8 (2greg)+(1lin+2hoeh+3hel)	8 (2B+3A+2ho)	4(1greg)+(1lin+1hoeh+1hel)	2 (4)	2+1	2+1
HC4	9 (2greg)+(1lin+2hoeh+4card)	9 (2-3B+5A+2ho)	4(1Greg)+(1lin+1hoeh+1card)	4	2+1	2+1

Genotypes		TC7A02		RN2C06		TC6E01				AC2H11
		a1	a2	a1	a2	a1	a2	a3	a4	a1	a2	a3
F	(K 30076 x V14167)^4x	269	305	200			160	186		213	221	235
M	(V6389 x V9401)^4x	261		200		158	190	210			221
H	HC1	273	305	200		160	188	210			221	235
F	(K 30076 x V14167)^4x	269	305	200		160	186			213	221	235
M	(K 30006 x V 6325)^4x	265		200		192	208			221
H	HC2	265	299	200		160	186	192	208	221	235
F	(V6389 x V9401)^4x	261		200		158	190	210		221
M	(K 30006 x V 6325)^4x	265		200		192	208			221
H	HC3	263	273	200		148	190	208		221
F	(V6389 x V9401)^4x	261		200		158	190	210		221
M	(K 30006 x G 10017)^4x	265		204		206	220			213
H	HC4	265	273	200	204	210	220			221
F	IAC-Tatu-ST	289	299	188	200	160	202			221	251
M	HC1	273	305	200		160	188	210		221	235
H	IAC-Tatu-ST x HC1	263	299	200		160	186	194		221
F	IAC-Tatu-ST	289	299	188	200	160	202			221	251
M	HC2	265	299	200		160	186	192	208	221	235
H	IAC-Tatu-ST x HC2	265	305	200		160				221
F	IAC-Tatu-ST	289	299	188	200	160	202			221	251
M	HC3	263	273	200		148	190	208		221
H	IAC-Tatu-ST x HC3	289	297	188	200	160	166	202		221	251
H	IAC-Tatu-ST x HC3	289	297	200		160	202			221	251
F	IAC-Caiapó	291	299	188	200	160	180			221	249
M	HC1	273	305	200		160	188	210		221	235
H	IAC-Caiapó x HC1	289	299	200		160	180	188		221	249
F	IAC-Caiapó	291	299	188	200	160	180			221	249
M	HC2	265	299	200		160	186	192	208	221	235
H	IAC-Caiapó x HC2	291	299	188	200	160	180			221	249
F	IAC-Caiapó	291	299	188	200	160	180			221	249
M	HC4	265	273	200	204	210	220			221
H	IAC-Caiapó x HC4	291	299	188	200	148	160	180		221	249
F	IAC-Runner 886	289	299	188	200	160	194			221
M	HC1	273	305	200		160	188	210		221	235
H	IAC-Runner 886 x HC1	261	299	200		160	188	194		221	251
F	IAC-Runner 886	289	299	188	200	160	194			221
M	HC2	265	299	200		160	186	192	208	221	235
H	IAC-Runner 886 x HC2	269	299	200		160	186	194		221	235	251
H	IAC-Runner 886 x HC2	269	303	200		148	160	186	194	221	235	251
F	BR1	289	297	188	200	160	200			221	251
M	HC2	265	299	200		160	186	192	208	221	235
H	BR1 x HC2	273	297	200		160	186	200		221	235	251

Genotypes	P. arachidis	A. gemmatalis		S. frugiperda
		1^st instar	3^rd instar	Leaf damage
HC1	0.0000^ Significant difference between genotype and control at 1% probability.	1.2650^ Significant difference between genotype and control at 1% probability.	1.7784^ Significant difference between genotype and control at 1% probability.	2^ Significant difference between genotype and control at 1% probability.
HC2	0.0000^ Significant difference between genotype and control at 1% probability.	NE	NE	2^ Significant difference between genotype and control at 1% probability.
HC3	0.0000^ Significant difference between genotype and control at 1% probability.	0.5344^ Significant difference between genotype and control at 1% probability.	7.0589^ Significant difference between genotype and control at 1% probability.	1^ Significant difference between genotype and control at 1% probability.
HC4	0.0144^ Significant difference between genotype and control at 1% probability.	0.0280^ Significant difference between genotype and control at 1% probability.	5.8682^ Significant difference between genotype and control at 1% probability.	2^* * Significant difference between genotype and control at 5% probability.
IAC Tatu ST	0.2715	26.5860	20.8090	4

Genotypes	Pa	Cp	Ca	Sa	Damaged area
HC1	1^ Significant difference between genotype and control at 1% probability.	3^ Significant difference between genotype and control at 1% probability.	1^ Significant difference between genotype and control at 1% probability.	1^ Significant difference between genotype and control at 1% probability.	0.0139^ Significant difference between genotype and control at 1% probability.
HC3	1^ Significant difference between genotype and control at 1% probability.	2^ Significant difference between genotype and control at 1% probability.	2^ Significant difference between genotype and control at 1% probability.	1^ Significant difference between genotype and control at 1% probability.	0.0142^ Significant difference between genotype and control at 1% probability.
HC4	1^ Significant difference between genotype and control at 1% probability.	3^ Significant difference between genotype and control at 1% probability.	2^ Significant difference between genotype and control at 1% probability.	1^ Significant difference between genotype and control at 1% probability.	0.0097^ Significant difference between genotype and control at 1% probability.
BR1	NE	NE	NE	8	NE
IAC Caiapó	4	5	4	NE	0.0658

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[1] Send correspondence to Alessandra Pereira Fávero. Embrapa Pecuária Sudeste, Rodovia Washington Luiz, km 234, P.O. Box 339, CEP: 13560-970, São Carlos, SP, Brazil. E-mail: alessandra.favero@embrapa.br.