Genesis Metals Corp. reported assay results from the first 10 holes 1,779 metres drilled as part of its recently completed 2020 Phase II (24 hole, 6,208 metre) diamond drilling program. The Chevrier Gold Project is located in the eastern Abitibi Greenstone Belt of Central Quebec; drilling results from the remainder of the program will be released when received and interpreted. The objective of the Phase II program was to continue drill testing the down plunge continuity of newly recognized high-grade gold shoots within the Chevrier Main deposit area (1.2 km by 0.2 km) to delineate their boundaries and volumes within and below the pit shell from the 2019 mineral resource estimate. The Genesis technical team has recognized a previously under-appreciated and poorly defined higher-grade component to the Chevrier Main gold deposit. A new 3D geological and mineralization model is being completed to better represent the distribution and controls on higher- grade gold mineralization. This model was utilized to inform the planning and execution of Phase I and Phase II drilling programs in 2020. The Company has completed a total of 8,707 metres of diamond drilling in 33 holes in 2020, including the Phase I program which was carried out and reported on earlier. Drill hole location and orientation. Cross sections and longitudinal sections for groupings of holes are also provided for GM-20-68 to 77. Holes GM-20-71 and -72 were drilled from the same pad to the NW; both cut lapilli tuff and mafic volcanic rocks with gold intercepts hosted in quartz-ankerite-tourmaline veins associated with zones of shearing and sericite-chlorite alteration. These holes are ~20 metre southwest step outs from the upper intercept in hole GM-17-42 of 22.6 metres averaging 3.59 g/t gold starting at 13.4 metres down hole. Hole GM-20-73 was collared approximately 13 metres southwest of the GM-20-71 and -72 pad and was drilled at the same azimuth. Two reported intervals of gold mineralization are associated with shear hosted quartz carbonate veining with sericite-chlorite alteration and pyrite mineralization.