Abiotic stress |
GmHdz4
|
Homeodomain-leucine zipper TF |
Enhanced drought tolerance, increased root length, area, and number of root tips |
[105] |
GmAITR
|
ABA-induced transcription repressor |
Enhanced salinity tolerance |
[106] |
GmPLA
|
Phospholipase A |
Flooding and drought tolerance. Modified response in iron and phosphorus deficiency. |
[107] |
GmWRKY46
|
WRKY TF family induced by phosphorous deprivation in roots. |
Enhanced tolerance in phosphorous deficiency |
[108] |
GmPYL
|
Receptor involved in ABA signal transduction. |
Reduction in ABA sensitivity. Higher seed germination rate, plant height and branch number. |
[109] |
GmLHY
|
TF that regulates the ABA signaling pathway |
Improved drought tolerance |
[110] |
Architecture, plant morphology, and production |
GmDWF1
|
Synthesis of brassinosteroids |
Increase in pod production |
[111] |
GmPDH1
|
Synthesis and distribution of lignin in the pod internal sclerenchyma. |
Pod shattering resistance |
[112] |
GmLHY
|
MYB TF involved in the gibberellic acid pathway |
Reduction in plant height and shortened internodes |
[113] |
GmSPL9
|
TF involved in regulating plant architecture |
Shorter plastochron length and increased node number |
[114] |
GmJAG
|
Homolog of JAGGED TF in Arabidopsis
|
Increase in number of seeds per pot and higher yield |
[115] |
GmE4
|
Homolog of phytochrome A in Arabidopsis
|
Earlier maturation time |
[116] |
GmCPR5
|
Regulation of the plant immune response, cell cycle, and development |
Short trichomes with smaller nuclei |
[117] |
GmEOD and GmAIP2
|
E3 ubiquitin ligases |
Larger seed size with higher protein and oil content |
[118,119] |
GmmiR396
|
Negative regulator of grain size |
Enlarged seed size and increased yield |
[120] |
GmKIX8
|
Negatively transcriptional regulator of cell proliferation |
Increased seeds and leaves size |
[121] |
Biotic stress |
GmF3H and GmFNSII-1
|
Flavanone-3-hydroxylase and flavone synthase II |
Increase in isoflavone content and resistance to SMV |
[122] |
GmUGT
|
UDP-glycosyltransferase |
Resistance to leaf-chewing insects |
[123] |
GmCDPK38
|
Calcium-dependent protein kinase |
Increased resistance to Spodoptera litura and late flowering |
[124] |
GmTAP1
|
Histone acetyltransferase |
Enhanced resistance to Phytophthora sojae
|
[125] |
GmARM
|
ABA-related signaling pathway protein |
Salt tolerance, alkali and Phytophthora sojae resistance |
[126] |
GmSNAP02
|
Vesicle fusion in intracellular trafficking |
Resistance to soybean cyst nematode |
[127] |
Flowering time |
GmEIL and GmEIN
|
Ethylene signal perception and transduction |
Early flowering and increased yield |
[128] |
GmE1, GmFKF, GmTOE4b, and GmLNK
|
TF and regulators of GmFT2a y GmFT5a |
Early flowering |
[129,130,131,132,133,134] |
GmFT, GmAP1, GmNMHC5, and GmSOC1
|
Florigen protein and proteins related to identity of floral organs |
Adaptation for planting in low latitudes (late flowering) |
[135,136,137,138,139] |
Herbicide resistance |
GmAHAS
|
Biosynthesis of branched-chain amino acids |
Resistance to five AHAS-inhibiting herbicides |
[140] |
Male sterility |
GmMS1
|
Sporophytic controlling factor for anther and pollen development |
Male sterility (useful trait for breeding applications) |
[141,142] |
GmAMS
|
bHLH TF that affects tapetal development |
[143] |
Nodulation |
GmRIC
|
Nodule-enhanced CLE peptide |
Increase in nodule number per plant |
[144,145] |
Nutritional and organoleptic value |
β-conglycinin (7S) and glycinin (11S) |
Storage proteins |
Changes in emulsion stability and gelling ability in soy protein |
[146] |
GmlincCG1
|
Long noncoding RNA mapped to the intergenic region of the 7S α-subunit locus |
Deficiency of the allergenic α’, α, and β subunits of 7S |
[147] |
GmRS, GmSTS, and GmGOLS
|
Raffinose and stachyose biosynthesis |
Reduction in anti-nutritive oligosaccharides |
[80,148] |
GmIPK1 and GmMRP5
|
Synthesis and transport of phytic acid |
Reduced phytic acid content in seeds |
[149,150] |
GmLOX
|
Lipoxygenases related with “beany” flavor |
Beany flavor reduction |
[151] |
GmKTI and GmBBi
|
Kunitz and Bowman–Birk protease inhibitors |
Low trypsin and chemotrypsin inhibitor content |
[152,153] |
GmBADH2
|
Aminoaldehyde dehydrogenase, involved in the formation of 2-AP |
Confers a “pandan-like” (high value quality trait) aroma |
[154] |
Oil profile |
GmFAD2
|
Conversion of oleic acid to linoleic acid |
High oleic, low linoleic, and alfa-linoleic phenotype |
[155,156,157,158,159] |
GmPDCT
|
Phosphatidylcholine: diacylglycerol cholinephosphotransferase |
[160] |